Changeset 1023

Timestamp:

08/03/12 09:36:45 (10 months ago)

Author:

jjr8

Message:

Rebuilt installation packages. This will be merged with the Trunk and released as MGET 0.8a43.

Location:

MGET/Branches/Jason/PythonPackage/dist

Files:

• MGET-0.8a42.win32-py2.4.exe (deleted)
• MGET-0.8a42.win32-py2.5.exe (deleted)
• MGET-0.8a42.win32-py2.6.exe (deleted)
• MGET-0.8a43.win32-py2.4.exe (added)
• MGET-0.8a43.win32-py2.5.exe (added)
• MGET-0.8a43.win32-py2.6.exe (added)
• MGETArcGISToolbox_jsTree.xml (modified) (1 diff)
• TracOnlineDocumentation/Documentation/ArcGISReference/AVHRRPathfinderSSTTimeSeries.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/ArcGISReference.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/ArcGISReference/AvisoGriddedGeostrophicCurrents.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/AvisoGriddedSSH.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/AvisoGriddedSignificantWaveHeight.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/AvisoGriddedWindSpeedModulus.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/ArcGISReference/FisheryPeriodicity.AnalyzeCatchInArcGISTable.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/ArcGISReference/GHRSSTLevel4.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/HYCOMGLBa008Equatorial3D.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/HYCOMGLBa008Equatorial4D.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/HYCOMGOMl0043D.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/HYCOMGOMl0044D.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/MODISL3SSTTimeSeries.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/OSCAR5DayThirdDegreeCurrents.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/OceanColorLevel3SMITimeSeries.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/ROMSCoSiNE3D.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/ROMSCoSiNE4D.CreateClimatologicalArcGISRasters.html (modified) (8 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/RandomForestModel.PredictFromArcGISRasters.html (modified) (2 diffs)
• TracOnlineDocumentation/Documentation/ArcGISReference/TreeModel.PredictFromArcGISRasters.html (modified) (2 diffs)
• TracOnlineDocumentation/Documentation/GettingStarted.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/PythonReference/Class_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.Connectivity.CoralReefConnectivity._AvisoCurrentsInMetersPerSecond.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.Aviso.AvisoGriddedGeostrophicCurrents.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.Aviso.AvisoGriddedSSH.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.Aviso.AvisoGriddedSignificantWaveHeight.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.Aviso.AvisoGriddedWindSpeedModulus.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.HYCOM.HYCOMGLBa008Equatorial3D.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.HYCOM.HYCOMGLBa008Equatorial4D.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.HYCOM.HYCOMGOMl0043D.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.HYCOM.HYCOMGOMl0044D.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.NASA.OceanColor.OceanColorLevel3SMITimeSeries.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.NASA.PODAAC.GHRSSTLevel4.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.NASA.PODAAC.MODISL3SSTTimeSeries.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.NOAA.NODC.AVHRRPathfinderSSTTimeSeries.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.NOAA.OSCAR.OSCAR5DayThirdDegreeCurrents.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.UMaineOMG.ROMSCoSiNE3D.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.UMaineOMG.ROMSCoSiNE4D.CreateClimatologicalArcGISRasters.html (modified) (4 diffs)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInTable.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCatchInArcGISTable.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCatchInTable.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.Statistics.Modeling.RandomForestModel.PredictFromArcGISRasters.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.Statistics.Modeling.TreeModel.PredictFromArcGISRasters.html (modified) (1 diff)
• TracOnlineDocumentation/Documentation/PythonReference/PythonReference.html (modified) (1 diff)

MGET/Branches/Jason/PythonPackage/dist/MGETArcGISToolbox_jsTree.xml

@@ -704 +704 @@
    <content><name icon="/projects/mget/export/HEAD/WikiFiles/MgetTree/img/icon_toolset.png">Statistics</name></content>
   </item>
-  <content><name icon="/projects/mget/export/HEAD/WikiFiles/MgetTree/img/icon_toolbox.png">Marine Geospatial Ecology Tools 0.8a42</name></content>
+  <content><name icon="/projects/mget/export/HEAD/WikiFiles/MgetTree/img/icon_toolbox.png">Marine Geospatial Ecology Tools 0.8a43</name></content>
  </item>
 </root>

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/AVHRRPathfinderSSTTimeSeries.CreateClimatologicalArcGISRasters.html

@@ -35 +35 @@
 NOAA/NASA advanced very high resolution radiometer Pathfinder
 algorithm for sea surface temperature and associated matchup database.
-J. Geophys. Res. 106(C5): 9179-9197.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">AVHRRPathfinderSSTTimeSeriesCreateClimatologicalArcGISRasters_GeoEco &lt;Daily | 5day | 8day | Monthly | Yearly&gt; &lt;Daytime | Nighttime&gt; &lt;sst | bsst | sdev | num | qual | msk1 | msk2&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {maskLand} {4 | 0 | 1 | 2 | 3 | 5 | 6 | 7} {maskIfBrightnessTempTestFailed} {maskIfCloudTestFailed} {maskIfUniformityTest1Failed} {maskIfUniformityTest2Failed} {maskIfZenithAngleTest1Failed} {maskIfZenithAngleTest2Failed} {maskIfReferenceTestFailed} {maskIfStraySunlightTestFailed} {maskIfEdgeTestFailed} {maskIfGlintTestFailed} {maskIfSSTTestFailed} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildRAT} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;Daily | 5day | 8day | Monthly | Yearly&gt;</td><td class="info" align="left"><p>Temporal resolution to use, one of:</p><ul><li><p>Daily - daily images. There are 365 during normal years and 366
+J. Geophys. Res. 106(C5): 9179-9197.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">AVHRRPathfinderSSTTimeSeriesCreateClimatologicalArcGISRasters_GeoEco &lt;Daily | 5day | 8day | Monthly | Yearly&gt; &lt;Daytime | Nighttime&gt; &lt;sst | bsst | sdev | num | qual | msk1 | msk2&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {maskLand} {4 | 0 | 1 | 2 | 3 | 5 | 6 | 7} {maskIfBrightnessTempTestFailed} {maskIfCloudTestFailed} {maskIfUniformityTest1Failed} {maskIfUniformityTest2Failed} {maskIfZenithAngleTest1Failed} {maskIfZenithAngleTest2Failed} {maskIfReferenceTestFailed} {maskIfStraySunlightTestFailed} {maskIfEdgeTestFailed} {maskIfGlintTestFailed} {maskIfSSTTestFailed} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildRAT} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;Daily | 5day | 8day | Monthly | Yearly&gt;</td><td class="info" align="left"><p>Temporal resolution to use, one of:</p><ul><li><p>Daily - daily images. There are 365 during normal years and 366
 during leap years.</p></li></ul><ul><li><p>5day - 5-day images. There are 73 per year. The first image of the
 year starts on January 1. The last image ends on day 365. NODC does
@@ -93 +93 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -118 +118 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -151 +165 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -157 +172 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -591 +610 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -624 +657 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -630 +664 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/ArcGISReference.html

@@ -1 +1 @@
 <?xml version="1.0" encoding="utf-8"?>
 <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
-<html xmlns="http://www.w3.org/1999/xhtml"><head><title>Marine Geospatial Ecology Tools - ArcGIS Reference</title><link rel="stylesheet" type="text/css" href="../Documentation.css?format=raw" /><meta http-equiv="Content-Type" content="text/html; charset=UTF-8" /></head><body><p class="title1">Marine Geospatial Ecology Tools</p><p class="title2">ArcGIS Geoprocessing Reference</p><table class="docmetadata"><tr><td class="docmetadata1">MGET version:</td><td class="docmetadata2">0.8a42</td></tr><tr><td class="docmetadata1">Document version:</td><td class="docmetadata2">$Id: ArcGISReference.xsl 497 2010-04-01 18:41:19Z jjr8 $</td></tr><tr><td class="docmetadata1">Maintainer email:</td><td class="docmetadata2"><a href="mailto:jason.roberts@duke.edu">jason.roberts@duke.edu</a></td></tr><tr><td class="docmetadata1">MGET home page:</td><td class="docmetadata2"><a href="http://code.nicholas.duke.edu/projects/mget">http://code.nicholas.duke.edu/projects/mget</a></td></tr></table><h1><a id="Contents">Contents</a></h1><ul><li><a href="#IndexByLabel">Tool Index, By Label</a></li><li><a href="#IndexByName">Tool Index, By Name</a></li><li><a href="#Copyright">Copyright and License</a></li></ul><h1><a id="IndexByLabel">Tool Index, By Label</a></h1><p>In the table below, <i>Tool Label</i> is the name of the tool as it appears in the
-        ArcGIS toolbox.</p><p><table><tr><th>Tool Label</th><th>Description</th></tr><tr><td><a href="Periodicity.AnalyzeArcGISTable.html?format=raw">Analyze Temporal Periodocity in Table</a></td><td>Creates several plots that show the temporal periodicity of the records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">Analyze Temporal Periodocity of CPUE</a></td><td>Creates several plots that analyze the temporal periodicity of catch per unit effort (FPUE) calculated from fishing records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeCatchInArcGISTable.html?format=raw">Analyze Temporal Periodocity of Catch</a></td><td>Creates several plots that show the temporal periodicity of catch records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeEffortInArcGISTable.html?format=raw">Analyze Temporal Periodocity of Effort</a></td><td>Creates several plots that show the temporal periodicity of fishing effort records in a table.</td></tr><tr><td><a href="ArcGISPoints.AppendPointsToFeatureClass2.html?format=raw">Append Points</a></td><td>Appends points to an existing ArcGIS point feature class.</td></tr><tr><td><a href="ArcGISPolygons.AppendPolygonToFeatureClass2.html?format=raw">Append Polygon</a></td><td>Appends a polygon to an existing ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISPolygons.AppendRectangleToFeatureClass2.html?format=raw">Append Rectangle</a></td><td>Appends a rectangle to an existing ArcGIS polygon feature class.</td></tr><tr><td><a href="Field.CalculateArcGISField.html?format=raw">Calculate Field Using a Python Expression</a></td><td>Calculates the value of a table field using a Python expression.</td></tr><tr><td><a href="Field.CalculateArcGISFields.html?format=raw">Calculate Fields Using Python Expressions</a></td><td>Calculates values for one or more fields of a table using Python expressions.</td></tr><tr><td><a href="Moon.CalculateMoonPhaseForArcGISTable.html?format=raw">Calculate Moon Phase For Dates in Field</a></td><td>Given a table with a date field, calculates the phase of the moon and writes it to another field.</td></tr><tr><td><a href="SpeciesDiversity.CalculateDiversityIndexForArcGISPolygons.html?format=raw">Calculate Species Diversity Index for Polygons</a></td><td>Given polygons representing zones of interest and points representing species occurrence observations, calculates a species diversity index for each polygon.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInArcGISRaster.html?format=raw">Cayula-Cornillon Fronts in ArcGIS Raster</a></td><td>Finds fronts in an ArcGIS raster using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInArcGISRastersArcGISTable.html?format=raw">Cayula-Cornillon Fronts in ArcGIS Rasters Listed in Table</a></td><td>Finds fronts in ArcGIS rasters listed in a table using the Cayula and Cornillon (1992) single-image edge detection algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInBinaryRaster.html?format=raw">Cayula-Cornillon Fronts in Binary Raster</a></td><td>Finds fronts in a binary raster using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsArcGISRaster.html?format=raw">Cayula-Cornillon Fronts in CoastWatch Image as ArcGIS Raster</a></td><td>Finds fronts in a CoastWatch POES AVHRR image using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them to an ArcGIS raster.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsBinaryRaster.html?format=raw">Cayula-Cornillon Fronts in CoastWatch Image as Binary Raster</a></td><td>Finds fronts in a CoastWatch POES AVHRR image using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them to a binary raster.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsArcGISRastersArcGISTable.html?format=raw">Cayula-Cornillon Fronts in CoastWatch Images Listed in Table as ArcGIS Rasters</a></td><td>Finds fronts in CoastWatch POES AVHRR images listed in a table using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them as ArcGIS rasters.</td></tr><tr><td><a href="ESRLClimateIndices.ClassifyONIEpisodesInTimeSeriesArcGISTable.html?format=raw">Classify Oceanic Nino Index (ONI) Episodes in Table</a></td><td>Given a time series table of monthly Oceanic Nino Index (ONI) numerical values, classifies each month as part of a normal, El Nino (warm), or La Nina (cold) episode.</td></tr><tr><td><a href="RExploratoryPlots.ClevelandPlotForArcGISTable.html?format=raw">Cleveland Plot for Table</a></td><td>Creates a multi-panel Cleveland dotplot for a table.</td></tr><tr><td><a href="CoastWatchAVHRR.ToArcGISRaster.html?format=raw">CoastWatch Image to ArcGIS Raster</a></td><td>Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to an ArcGIS raster.</td></tr><tr><td><a href="CoastWatchAVHRR.ToBinaryRaster.html?format=raw">CoastWatch Image to Binary Raster</a></td><td>Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to a binary raster.</td></tr><tr><td><a href="CoastWatchAVHRR.ToArcGISRasterArcGISTable.html?format=raw">CoastWatch Images Listed in Table To ArcGIS Rasters</a></td><td>Creates an ArcGIS raster from each CoastWatch POES AVHRR image listed in a table of images, where one field specifies the file path containing the image and another specifies the variable that represents the image.</td></tr><tr><td><a href="CoastWatchAVHRR.ToBinaryRasterArcGISTable.html?format=raw">CoastWatch Images Listed in Table To Binary Rasters</a></td><td>Creates a binary raster from each CoastWatch POES AVHRR image listed in a table of images, where one field specifies the file path containing the image and another specifies the variable that represents the image.</td></tr><tr><td><a href="CoastWatchAVHRR.ToCoastWatchHDF.html?format=raw">CoastWatch Images to HDF</a></td><td>Creates a CoastWatch HDF by importing images from a list of CoastWatch POES AVHRR CWFs or HDFs.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToArcGISRaster.html?format=raw">Convert 2D Variable in NetCDF to ArcGIS Raster</a></td><td>Converts a two-dimensional variable in a netCDF file to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToArcInfoASCIIGrid.html?format=raw">Convert 2D Variable in NetCDF to ArcInfo ASCII Grid</a></td><td>Converts a two-dimensional variable in a netCDF file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToBinaryRaster.html?format=raw">Convert 2D Variable in NetCDF to Binary Raster</a></td><td>Converts a two-dimensional variable in a netCDF file to a binary raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToArcGISRasters.html?format=raw">Convert 2D Variable in NetCDFs Listed in Table To ArcGIS Rasters</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToArcInfoASCIIGrids.html?format=raw">Convert 2D Variable in NetCDFs Listed in Table To ArcInfo ASCII Grids</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToBinaryRasters.html?format=raw">Convert 2D Variable in NetCDFs Listed in Table To Binary Rasters</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to a binary raster.</td></tr><tr><td><a href="SpatiaLiteDatabase.ImportFromArcGISWorkspace.html?format=raw">Convert ArcGIS Geodatasets to SpatiaLite Tables</a></td><td>Converts ArcGIS tables, shapefiles, and feature classes to tables in a SpatiaLite database.</td></tr><tr><td><a href="ArcGISRaster.ToLines.html?format=raw">Convert ArcGIS Raster to Lines</a></td><td>Converts an ArcGIS raster to a feature class of lines that connect adjacent foreground raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPoints.html?format=raw">Convert ArcGIS Raster to Points</a></td><td>Converts an ArcGIS raster to a feature class of points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonOutlines.html?format=raw">Convert ArcGIS Raster to Polygon Outlines</a></td><td>Converts an ArcGIS raster to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygons.html?format=raw">Convert ArcGIS Raster to Polygons</a></td><td>Converts an ArcGIS raster to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToLinesArcGISTable.html?format=raw">Convert ArcGIS Rasters Listed in Table to Lines</a></td><td>Converts the ArcGIS rasters listed in a table to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPointsArcGISTable.html?format=raw">Convert ArcGIS Rasters Listed in Table to Points</a></td><td>Converts the ArcGIS rasters listed in a table to points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonOutlinesArcGISTable.html?format=raw">Convert ArcGIS Rasters Listed in Table to Polygon Outlines</a></td><td>Converts the ArcGIS rasters listed in a table to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonsArcGISTable.html?format=raw">Convert ArcGIS Rasters Listed in Table to Polygons</a></td><td>Converts the ArcGIS rasters listed in a table to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcInfoASCIIGrid.ToArcGISRaster.html?format=raw">Convert ArcInfo ASCII Grid to ArcGIS Raster</a></td><td>Converts a text file in ArcInfo ASCII Grid format to an ArcGIS raster.</td></tr><tr><td><a href="ArcInfoASCIIGrid.ToArcGISRasterArcGISTable.html?format=raw">Convert ArcInfo ASCII Grids Listed in Table To ArcGIS Rasters</a></td><td>Converts each ArcInfo ASCII Grid text file in a table to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcGISRaster.html?format=raw">Convert Binary Raster to ArcGIS Raster</a></td><td>Converts a two-dimensional binary raster to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcInfoASCIIGrid.html?format=raw">Convert Binary Raster to ArcInfo ASCII Grid</a></td><td>Converts a two-dimensional binary raster to a text file in ArcGIS ASCII Grid format.</td></tr><tr><td><a href="BinaryRaster.ToArcGISRasterArcGISTable.html?format=raw">Convert Binary Rasters Listed in Table To ArcGIS Rasters</a></td><td>Converts each two-dimensional binary raster in a table to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcInfoASCIIGridArcGISTable.html?format=raw">Convert Binary Rasters Listed in Table To ArcInfo ASCII Grids</a></td><td>Converts each two-dimensional binary raster in a table to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="CoastWatchAVHRR.ToCoastWatchHDFArcGISTable.html?format=raw">Convert CoastWatch Images Listed in Table to HDFs</a></td><td>Creates CoastWatch HDFs in a specified output directory by importing images from the CoastWatch POES AVHRR CWFs or HDFs listed in a table.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ConvertToSpatiaLite.html?format=raw">Convert Mesoscale Eddies NetCDF to SpatiaLite Database</a></td><td>Converts the Chelton et al. (2011) mesoscale eddy database netCDF file to a SpatiaLite database.</td></tr><tr><td><a href="HDF.SDSToArcGISRaster.html?format=raw">Convert SDS in HDF to ArcGIS Raster</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to an ArcGIS raster.</td></tr><tr><td><a href="HDF.SDSToArcInfoASCIIGrid.html?format=raw">Convert SDS in HDF to ArcInfo ASCII Grid</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.SDSToBinaryRaster.html?format=raw">Convert SDS in HDF to Binary Raster</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to a binary raster.</td></tr><tr><td><a href="HDF.ToArcGISRasterArcGISTable.html?format=raw">Convert SDS in HDFs Listed in Table To ArcGIS Rasters</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to an ArcGIS raster.</td></tr><tr><td><a href="HDF.ToArcInfoASCIIGridArcGISTable.html?format=raw">Convert SDS in HDFs Listed in Table To ArcInfo ASCII Grids</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to a text file in an ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.ToBinaryRasterArcGISTable.html?format=raw">Convert SDS in HDFs Listed in Table To Binary Rasters</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to a binary raster.</td></tr><tr><td><a href="SIRFile.ToArcGISRaster.html?format=raw">Convert SIR File to ArcGIS Raster</a></td><td>Converts a SIR file to an ArcGIS raster.</td></tr><tr><td><a href="SIRFile.ToArcInfoASCIIGrid.html?format=raw">Convert SIR File to ArcInfo ASCII Grid</a></td><td>Converts a SIR file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="SIRFile.ToBinaryRaster.html?format=raw">Convert SIR File to Binary Raster</a></td><td>Converts a SIR file to a binary raster.</td></tr><tr><td><a href="SIRFile.ToArcGISRasterArcGISTable.html?format=raw">Convert SIR Files Listed in Table To ArcGIS Rasters</a></td><td>Converts each SIR file in a table to an ArcGIS raster.</td></tr><tr><td><a href="SIRFile.ToArcInfoASCIIGridArcGISTable.html?format=raw">Convert SIR Files Listed in Table To ArcInfo ASCII Grids</a></td><td>Converts each SIR file in a table to a text file in ArcInfo ASCII grid format.</td></tr><tr><td><a href="SIRFile.ToBinaryRasterArcGISTable.html?format=raw">Convert SIR Files Listed in Table To Binary Rasters</a></td><td>Converts each SIR file in a table to a binary raster.</td></tr><tr><td><a href="SpatiaLiteDatabase.ExportToArcGISWorkspace.html?format=raw">Convert SpatiaLite Tables to ArcGIS Geodatasets</a></td><td>Converts tables in a SpatiaLite database to ArcGIS tables, shapefiles, and feature classes.</td></tr><tr><td><a href="CoastWatchAVHRR.CopyNavigationOffsets.html?format=raw">Copy CoastWatch Navigation Offsets</a></td><td>Copies the navigation offsets from one variable in a CoastWatch POES AVHRR CWF or HDF file to one or more variables in another file.</td></tr><tr><td><a href="CoastWatchAVHRR.CopyNavigationOffsetsArcGISTable.html?format=raw">Copy CoastWatch Navigation Offsets for Files Listed in Table</a></td><td>Copies navigation offsets from a source variable to destination variables in CoastWatch POES AVHRR CWF or HDF files listed in a table.</td></tr><tr><td><a href="Directory.CopyArcGISTable.html?format=raw">Copy Directories Listed in Table</a></td><td>Copies the directories listed in a table.</td></tr><tr><td><a href="Directory.Copy.html?format=raw">Copy Directory</a></td><td>Copies a directory, including its subdirectories and files.</td></tr><tr><td><a href="File.Copy.html?format=raw">Copy File</a></td><td>Copies a file.</td></tr><tr><td><a href="File.CopyArcGISTable.html?format=raw">Copy Files Listed in Table</a></td><td>Copies the files listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Copy.html?format=raw">Copy Raster</a></td><td>Copies an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.CopyArcGISTable.html?format=raw">Copy Rasters Listed in Table</a></td><td>Copies the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="Shapefile.Copy.html?format=raw">Copy Shapefile</a></td><td>Copies a shapefile.</td></tr><tr><td><a href="Shapefile.CopyToDirectory.html?format=raw">Copy Shapefile To Directory</a></td><td>Copies a shapefile to a directory.</td></tr><tr><td><a href="ArcGISPolygons.CreateBoundingBoxForArcGISGeoDatasets.html?format=raw">Create Bounding Box for Geodatasets</a></td><td>Creates a new ArcGIS polygon feature class and a bounding box (a minimum bounding rectangle) within it that encompasses the extents of one or more ArcGIS geodatasets.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for AVHRR Pathfinder V5 SST</a></td><td>Creates climatological rasters from AVHRR Pathfinder Version 5 SST images published by NOAA NODC.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Aviso Geostrophic Currents Product</a></td><td>Creates climatological rasters for an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedSSH.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Aviso SSH Product</a></td><td>Creates climatological rasters for an Aviso gridded sea surface height product.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Aviso Significant Wave Height Product</a></td><td>Creates climatological rasters for an Aviso gridded significant wave height product.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Aviso Wind Speed Modulus Product</a></td><td>Creates climatological rasters for an Aviso gridded wind speed modulus product.</td></tr><tr><td><a href="GHRSSTLevel4.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for GHRSST L4 SST</a></td><td>Creates climatological rasters for a GHRSST L4 product hosted by NASA JPL PO.DAAC.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for HYCOM GLBa0.08 Equatorial 3D Variable</a></td><td>Creates climatological rasters for a 3D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for HYCOM GLBa0.08 Equatorial 4D Variable</a></td><td>Creates climatological rasters for a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset</td></tr><tr><td><a href="HYCOMGOMl0043D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for HYCOM GOMl0.04 3D Variable</a></td><td>Creates climatological rasters for a HYCOM GOMl0.04 3D variable</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for HYCOM GOMl0.04 4D Variable</a></td><td>Creates climatological rasters for a HYCOM GOMl0.04 4D variable</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for NASA OceanColor L3 SMI Product</a></td><td>Creates climatological rasters for a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for OSCAR Currents</a></td><td>Creates climatological rasters for NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for PO.DAAC MODIS L3 SST</a></td><td>Creates climatological rasters from MODIS Level 3 SST images published by NASA JPL PO.DAAC.</td></tr><tr><td><a href="ROMSCoSiNE3D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Pacific ROMS-CoSiNE 3D Variable</a></td><td>Creates climatological rasters for a Pacific ROMS-CoSiNE 3D variable</td></tr><tr><td><a href="ROMSCoSiNE4D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Pacific ROMS-CoSiNE 4D Variable</a></td><td>Creates climatological rasters for a Pacific ROMS-CoSiNE 4D variable</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMaskAsArcGISRaster.html?format=raw">Create CoastWatch Mask as ArcGIS Raster</a></td><td>Creates a mask, in ArcGIS raster format, for a CoastWatch POES AVHRR image.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMaskAsBinaryRaster.html?format=raw">Create CoastWatch Mask as Binary Raster</a></td><td>Creates a mask, in binary raster format, for a CoastWatch POES AVHRR image.</td></tr><tr><td><a href="CoralReefConnectivity.CreateSimulationFromArcGISRasters.html?format=raw">Create Coral Reef Connectivity Simulation From ArcGIS Rasters</a></td><td>Creates a coral reef connectivity simulation and initializes it with reef data in ArcGIS rasters.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateCurrentVectorsAsArcGISFeatureClasses.html?format=raw">Create Current Vectors for HYCOM GLBa0.08 Equatorial Region</a></td><td>Creates line feature classes representing the current vectors for the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateCurrentVectorsAsArcGISFeatureClasses.html?format=raw">Create Current Vectors for HYCOM GOMl0.04</a></td><td>Creates line feature classes representing the vectors of HYCOM GOMl0.04 currents.</td></tr><tr><td><a href="Directory.Create.html?format=raw">Create Directory</a></td><td>Creates a directory, including any parent directories that are missing.</td></tr><tr><td><a href="FEET.CreateEnvelopes.html?format=raw">Create Fishery Effort Envelopes</a></td><td>Models the spatial distribution of fishing effort for fisheries for which no spatially-explicit effort data is available.</td></tr><tr><td><a href="ArcGISFishnets.CreateFishnet.html?format=raw">Create Fishnet</a></td><td>Creates a grid of rectangular polygons.</td></tr><tr><td><a href="ArcGISFishnets.CreateFishnetForPoints.html?format=raw">Create Fishnet for Points</a></td><td>Creates a grid of rectangular cells that overlap the input points and optionally calculates summary statistics for the points that intersect each cell.</td></tr><tr><td><a href="ArcGISLines.FromVectorComponentRasters.html?format=raw">Create Lines From Vector Component Rasters</a></td><td>Given rasters representing the x and y components of a vector field, such as the u and v rasters for ocean currents, this tool creates a feature class of lines representing the vectors, similar to a "quiver plot".</td></tr><tr><td><a href="ArcGISLines.FromVectorComponentRastersInArcGISTable.html?format=raw">Create Lines From Vector Component Rasters Listed in Table</a></td><td>Given a table of rasters representing the x and y components of vector fields, such as the u and v rasters for ocean currents, this tool creates feature classes of lines representing the vectors, similar to a "quiver plot".</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMasksAsArcGISRastersArcGISTable.html?format=raw">Create Masks as ArcGIS Rasters for CoastWatch Images Listed in Table</a></td><td>Creates masks, in ArcGIS raster format, for CoastWatch POES AVHRR images listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMasksAsBinaryRastersArcGISTable.html?format=raw">Create Masks as Binary Rasters for CoastWatch Images Listed in Table</a></td><td>Creates masks, in binary raster format, for CoastWatch POES AVHRR images listed in a table.</td></tr><tr><td><a href="ArcGISPoints.CreateFeatureClassWithPoints2.html?format=raw">Create Points</a></td><td>Creates points in a new ArcGIS point feature class.</td></tr><tr><td><a href="ArcGISPoints.CreatePointsAlongLines.html?format=raw">Create Points Along Lines</a></td><td>Creates points along lines at a specified interval.</td></tr><tr><td><a href="ArcGISPolygons.CreateFeatureClassWithPolygon2.html?format=raw">Create Polygon</a></td><td>Creates a polygon in a new ArcGIS polygon feature class.</td></tr><tr><td><a href="CoRTADv32D.CreateArcGISRaster.html?format=raw">Create Raster for CoRTAD 2D Variable</a></td><td>Creates a raster for a CoRTAD 2D variable.</td></tr><tr><td><a href="ROMSCoSiNE2D.CreateArcGISRaster.html?format=raw">Create Raster for Pacific ROMS-CoSiNE 2D Variable</a></td><td>Creates a raster for a Pacific ROMS-CoSiNE 2D variable.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateArcGISRasters.html?format=raw">Create Rasters for AVHRR Pathfinder V5 SST</a></td><td>Creates rasters for AVHRR Pathfinder Version 5 SST images published by NOAA NODC.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateArcGISRasters.html?format=raw">Create Rasters for Aviso Geostrophic Currents Product</a></td><td>Creates rasters for an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedSSH.CreateArcGISRasters.html?format=raw">Create Rasters for Aviso SSH Product</a></td><td>Creates rasters for an Aviso gridded sea surface height product.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.CreateArcGISRasters.html?format=raw">Create Rasters for Aviso Significant Wave Height Product</a></td><td>Creates rasters for an Aviso gridded significant wave height product.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.CreateArcGISRasters.html?format=raw">Create Rasters for Aviso Wind Speed Modulus Product</a></td><td>Creates rasters for an Aviso gridded wind speed modulus product.</td></tr><tr><td><a href="CoRTADv33D.CreateArcGISRasters.html?format=raw">Create Rasters for CoRTAD 3D Variable</a></td><td>Creates rasters a CoRTAD 3D variable.</td></tr><tr><td><a href="GHRSSTLevel4.CreateArcGISRasters.html?format=raw">Create Rasters for GHRSST L4 SST</a></td><td>Creates rasters for a GHRSST L4 product hosted by NASA JPL PO.DAAC.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.CreateArcGISRasters.html?format=raw">Create Rasters for HYCOM GLBa0.08 Equatorial 3D Variable</a></td><td>Creates rasters for a 3D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateArcGISRasters.html?format=raw">Create Rasters for HYCOM GLBa0.08 Equatorial 4D Variable</a></td><td>Creates rasters for a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGOMl0043D.CreateArcGISRasters.html?format=raw">Create Rasters for HYCOM GOMl0.04 3D Variable</a></td><td>Creates rasters for a HYCOM GOMl0.04 3D variable.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateArcGISRasters.html?format=raw">Create Rasters for HYCOM GOMl0.04 4D Variable</a></td><td>Creates rasters for a HYCOM GOMl0.04 4D variable.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.CreateArcGISRasters.html?format=raw">Create Rasters for NASA OceanColor L3 SMI Product</a></td><td>Creates rasters for a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateArcGISRasters.html?format=raw">Create Rasters for OSCAR Currents</a></td><td>Creates rasters for NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateArcGISRasters.html?format=raw">Create Rasters for PO.DAAC MODIS L3 SST</a></td><td>Creates rasters for MODIS Level 3 SST images published by NASA JPL PO.DAAC.</td></tr><tr><td><a href="ROMSCoSiNE3D.CreateArcGISRasters.html?format=raw">Create Rasters for Pacific ROMS-CoSiNE 3D Variable</a></td><td>Creates rasters for a Pacific ROMS-CoSiNE 3D variable.</td></tr><tr><td><a href="ROMSCoSiNE4D.CreateArcGISRasters.html?format=raw">Create Rasters for Pacific ROMS-CoSiNE 4D Variable</a></td><td>Creates rasters for a Pacific ROMS-CoSiNE 4D variable.</td></tr><tr><td><a href="ArcGISPolygons.CreateFeatureClassWithRectangle2.html?format=raw">Create Rectangle</a></td><td>Creates a rectangle in a new ArcGIS polygon feature class.</td></tr><tr><td><a href="Directory.CreateSubdirectory.html?format=raw">Create Subdirectory</a></td><td>Creates a subdirectory within a parent directory.</td></tr><tr><td><a href="ESRLClimateIndices.UrlToArcGISTable.html?format=raw">Create Table from ESRL Climate Index Time Series at URL</a></td><td>Creates and populates a table of climate index values parsed from NOAA ESRL climate index time series data downloaded from a URL.</td></tr><tr><td><a href="ESRLClimateIndices.UrlsToArcGISTable.html?format=raw">Create Table from ESRL Climate Index Time Series at URLs</a></td><td>Creates and populates a table of climate index values parsed from NOAA ESRL climate index time series data downloaded from a list of URLs.</td></tr><tr><td><a href="ESRLClimateIndices.FileToArcGISTable.html?format=raw">Create Table from ESRL Climate Index Time Series in Text File</a></td><td>Creates and populates a table of climate index values parsed from a text file in NOAA ESRL time series format.</td></tr><tr><td><a href="ESRLClimateIndices.FilesToArcGISTable.html?format=raw">Create Table from ESRL Climate Index Time Series in Text Files</a></td><td>Creates and populates a table of climate index values parsed from a list of text files, where each file contains the data for a single climate index in NOAA ESRL time series format.</td></tr><tr><td><a href="Directory.CreateTemporaryDirectory.html?format=raw">Create Temporary Directory</a></td><td>Creates a directory suitable for holding temporary files.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateVectorsAsArcGISFeatureClasses.html?format=raw">Create Vectors for Aviso Geostrophic Currents Product</a></td><td>Creates line feature classes representing the current vectors of an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateVectorsAsArcGISFeatureClasses.html?format=raw">Create Vectors for OSCAR Currents</a></td><td>Creates line feature classes representing the vectors of NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="ArcGISRaster.CreateXRaster.html?format=raw">Create X Coordinate Raster</a></td><td>Creates an ArcGIS raster where the value of each cell is the X coordinate of the cell.</td></tr><tr><td><a href="ArcGISRaster.CreateYRaster.html?format=raw">Create Y Coordinate Raster</a></td><td>Creates an ArcGIS raster where the value of each cell is the Y coordinate of the cell.</td></tr><tr><td><a href="File.Decompress.html?format=raw">Decompress File</a></td><td>Decompresses a file into a directory.</td></tr><tr><td><a href="Directory.DeleteArcGISTable.html?format=raw">Delete Directories Listed in Table</a></td><td>Deletes the directories listed in a table.</td></tr><tr><td><a href="Directory.Delete.html?format=raw">Delete Directory</a></td><td>Deletes a directory.</td></tr><tr><td><a href="File.Delete.html?format=raw">Delete File</a></td><td>Deletes a file.</td></tr><tr><td><a href="File.DeleteArcGISTable.html?format=raw">Delete Files Listed in Table</a></td><td>Deletes the files listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Delete.html?format=raw">Delete Raster</a></td><td>Deletes an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.DeleteArcGISTable.html?format=raw">Delete Rasters Listed in Table</a></td><td>Deletes the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="RExploratoryPlots.DensityHistogramForArcGISField.html?format=raw">Density Histogram for Field</a></td><td>Creates a density histogram for a field of a table.</td></tr><tr><td><a href="RExploratoryPlots.DensityHistogramForArcGISPointsCoordinates.html?format=raw">Density Histogram for Point Coordinate</a></td><td>Creates a density histogram for one of the coordinates of a point feature class or layer.</td></tr><tr><td><a href="R.Evaluate.html?format=raw">Evaluate R Statements</a></td><td>Evalutes one or more R statements using the R interpreter and returns the result of the last statement.</td></tr><tr><td><a href="R.EvaluateFile.html?format=raw">Evaluate R Statements in Text File</a></td><td>Evalutes the R statements in a text file using the R interpreter and returns the result of the last statement.</td></tr><tr><td><a href="Table.ExecuteADOCommandForArcGISTable.html?format=raw">Execute Database Command for Table</a></td><td>Opens a Microsoft ActiveX Data Objects (ADO) connection to the database containing a table and executes a command.</td></tr><tr><td><a href="ADODatabaseConnection.ConnectAndExecuteCommand.html?format=raw">Execute Database Command on ADO Connection</a></td><td>Opens a Microsoft ActiveX Data Objects (ADO) connection to a database and executes a command.</td></tr><tr><td><a href="ChildProcess.ExecuteProgram.html?format=raw">Execute Program</a></td><td>Executes the specified program and captures its output.</td></tr><tr><td><a href="ArcGISRaster.ExtractByMaskArcGISTable.html?format=raw">Extract By Mask for ArcGIS Rasters Listed in Table</a></td><td>For each ArcGIS raster in a table, extracts the cells that correspond to the areas defined by a mask.</td></tr><tr><td><a href="HDF.ExtractHeader.html?format=raw">Extract HDF Header</a></td><td>Extracts the header of an HDF file and saves it to a text file.</td></tr><tr><td><a href="HDF.ExtractHeaderArcGISTable.html?format=raw">Extract Headers of HDFs Listed in Table</a></td><td>Extracts the headers of HDF files in a table and saves them to text files.</td></tr><tr><td><a href="NetCDF.ExtractHeaderArcGISTable.html?format=raw">Extract Headers of NetCDFs Listed in Table</a></td><td>Extracts the headers of netCDF files in a table and saves them to text files.</td></tr><tr><td><a href="SIRFile.ExtractHeaderArcGISTable.html?format=raw">Extract Headers of SIR Files Listed in Table</a></td><td>Extracts the headers of SIR files in a table and saves them to text files.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ExtractArcGISPointsFromSpatiaLite.html?format=raw">Extract Mesoscale Eddy Centroids From SpatiaLite Database</a></td><td>Extracts eddy centroid points from the Chelton et al. (2011) mesoscale eddy database in SpatiaLite format.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ExtractArcGISLinesFromSpatiaLite.html?format=raw">Extract Mesoscale Eddy Tracklines From SpatiaLite Database</a></td><td>Extracts eddy tracklines from the Chelton et al. (2011) mesoscale eddy database in SpatiaLite format.</td></tr><tr><td><a href="NetCDF.ExtractHeader.html?format=raw">Extract NetCDF Header</a></td><td>Extracts the header of a netCDF file and saves it to a text file.</td></tr><tr><td><a href="SIRFile.ExtractHeader.html?format=raw">Extract SIR File Header</a></td><td>Extracts the header of a SIR file.</td></tr><tr><td><a href="File.IsDecompressible.html?format=raw">File Is Decompressible</a></td><td>Returns True if the specified file is in a format that can be decompressed.</td></tr><tr><td><a href="ArcGISRaster.FindAndExtractByMask.html?format=raw">Find ArcGIS Rasters and Extract By Mask</a></td><td>Finds rasters in an ArcGIS workspace and extracts the cells that correspond to the areas defined by a mask.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.FindArcGISRastersAndDetectEdges.html?format=raw">Find ArcGIS Rasters and Find Cayula-Cornillon Fronts</a></td><td>Finds ArcGIS rasters in a workspace and finds fronts within them using the Cayula and Cornillon (1992) single-image edge detection algorithm.</td></tr><tr><td><a href="Interpolator.FindAndInpaintArcGISRasters.html?format=raw">Find ArcGIS Rasters and Interpolate No Data Cells</a></td><td>Finds rasters in an ArcGIS workspace and interpolates values for the No Data cells.</td></tr><tr><td><a href="ArcGISRaster.FindAndProjectRastersToTemplate.html?format=raw">Find ArcGIS Rasters and Project to Template</a></td><td>Finds rasters in an ArcGIS workspace and projects them to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.FindAndProjectClipAndOrExecuteMapAlgebra.html?format=raw">Find ArcGIS Rasters and Project, Clip, and/or Execute Map Algebra</a></td><td>Finds rasters in an ArcGIS workspace and projects, clips, and/or perfoms map algebra on them. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcInfoASCIIGrid.FindAndConvertToArcGISRaster.html?format=raw">Find ArcInfo ASCII Grids and Convert To ArcGIS Rasters</a></td><td>Finds ArcInfo ASCII Grid text files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="BinaryRaster.FindAndConvertToArcGISRaster.html?format=raw">Find Binary Rasters and Convert To ArcGIS Rasters</a></td><td>Finds two-dimensional binary rasters in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="BinaryRaster.FindAndConvertToArcInfoASCIIGrid.html?format=raw">Find Binary Rasters and Convert To ArcInfo ASCII Grids</a></td><td>Finds two-dimensional binary rasters in a directory and converts them to text files in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="BinaryRaster.FindAndSwapBytes.html?format=raw">Find Binary Rasters and Swap Bytes</a></td><td>Finds and reverses the byte order of binary rasters in a directory (i.e. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in AVHRR Pathfinder V5 SST</a></td><td>Creates rasters indicating the positions of fronts in AVHRR Pathfinder Version 5 SST images published by NOAA NODC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="GHRSSTLevel4.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in GHRSST L4 SST</a></td><td>Creates rasters indicating the positions of fronts in GHRSST L4 SST images hosted by NASA JPL PO.DAAC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in HYCOM GLBa0.08 Equatorial 4D Variable</a></td><td>Creates rasters indicating the positions of fronts in the 2D slices of a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in HYCOM GOMl0.04 4D Variable</a></td><td>Creates rasters indicating the positions of fronts in the 2D slices of a HYCOM GOMl0.04 4D variable using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in PO.DAAC MODIS L3 SST</a></td><td>Creates rasters indicating the positions of fronts in MODIS Level 3 SST images published by NASA JPL PO.DAAC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFilesAndCreateArcGISTable.html?format=raw">Find CoastWatch Files</a></td><td>Finds CoastWatch POES AVHRR files within a directory and creates a table that lists them.</td></tr><tr><td><a href="CoastWatchAVHRR.FindImagesInFilesAndCreateArcGISTable.html?format=raw">Find CoastWatch Images In Files</a></td><td>Finds CoastWatch POES AVHRR files within a directory and creates a table that lists the images within them.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToArcGISRasters.html?format=raw">Find CoastWatch Images and Convert To ArcGIS Rasters</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToBinaryRasters.html?format=raw">Find CoastWatch Images and Convert To Binary Rasters</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and converts them to binary rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToCoastWatchHDFs.html?format=raw">Find CoastWatch Images and Convert to HDFs</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and imports them into CoastWatch HDFs.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndCreateMasksAsArcGISRasters.html?format=raw">Find CoastWatch Images and Create Masks as ArcGIS Rasters</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in ArcGIS raster format.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndCreateMasksAsBinaryRasters.html?format=raw">Find CoastWatch Images and Create Masks as Binary Rasters</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in binary raster format.</td></tr><tr><td><a href="CoastWatchAVHRR.FindCoastWatchFilesAndFindFrontsAsArcGISRasters.html?format=raw">Find CoastWatch Images and Find Cayula-Cornillon Fronts as ArcGIS Rasters</a></td><td>Uses the Cayula and Cornillon (1992) single-image edge detection algorithm to find fronts in the CoastWatch POES AVHRR images found in a directory, and outputs the fronts as ArcGIS rasters.</td></tr><tr><td><a href="Directory.FindAndCreateArcGISTable.html?format=raw">Find Directories</a></td><td>Finds subdirectories within a directory and creates a table that lists them.</td></tr><tr><td><a href="File.FindAndCreateArcGISTable.html?format=raw">Find Files</a></td><td>Finds files within a directory and creates a table that lists them.</td></tr><tr><td><a href="HDF.FindAndConvertToArcGISRasters.html?format=raw">Find HDFs and Convert SDS To ArcGIS Rasters</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to an ArcGIS raster.</td></tr><tr><td><a href="HDF.FindAndConvertToArcInfoASCIIGrids.html?format=raw">Find HDFs and Convert SDS To ArcInfo ASCII Grids</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.FindAndConvertToBinaryRasters.html?format=raw">Find HDFs and Convert SDS To Binary Rasters</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to a binary raster.</td></tr><tr><td><a href="HDF.FindAndExtractHeaders.html?format=raw">Find HDFs and Extract Headers</a></td><td>Finds HDF files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="ArcGISPoints.FindNearestFeatures.html?format=raw">Find Nearest Features</a></td><td>For each point, finds the nearest feature and writes its ID, distance, angle, and/or values of specified fields to fields of the point.</td></tr><tr><td><a href="ArcGISPoints.FindNearestFeaturesListedInField.html?format=raw">Find Nearest Features Listed in Field</a></td><td>For each point, using the feature class or layer listed in a field, finds the nearest feature and writes its ID, distance, angle, and/or values of specified fields to fields of the point. Use this tool when you have a single point feature class but need to find distances to different near feature classes or layers for different points.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToArcGISRasters.html?format=raw">Find NetCDFs and Convert 2D Variable to ArcGIS Rasters</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToArcInfoASCIIGrids.html?format=raw">Find NetCDFs and Convert 2D Variable to ArcInfo ASCII Grids</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToBinaryRasters.html?format=raw">Find NetCDFs and Convert 2D Variable to Binary Rasters</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to a binary raster.</td></tr><tr><td><a href="NetCDF.FindAndExtractHeaders.html?format=raw">Find NetCDFs and Extract Headers</a></td><td>Finds netCDF files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="AvisoGriddedSSH.FindOkuboWeissEddies.html?format=raw">Find Okubo-Weiss Eddies in Aviso SSH Product</a></td><td>Creates rasters showing the cores of geostrophic eddies detected in an Aviso gridded sea surface height product using the Okubo-Weiss algorithm.</td></tr><tr><td><a href="ArcGISRaster.FindAndCreateArcGISTable.html?format=raw">Find Rasters</a></td><td>Finds rasters within an ArcGIS workspace and creates a table that lists them.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.FindRastersAndExecuteSingleOutputMapAlgebra.html?format=raw">Find Rasters and Execute Single Output Map Algebra</a></td><td>Finds rasters in a workspace and executes a map algebra expression on them.</td></tr><tr><td><a href="SIRFile.FindAndConvertToArcGISRasters.html?format=raw">Find SIR Files and Convert To ArcGIS Rasters</a></td><td>Finds SIR files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="SIRFile.FindAndConvertToArcInfoASCIIGrids.html?format=raw">Find SIR Files and Convert To ArcInfo ASCII Grids</a></td><td>Finds SIR files in a directory and converts them to text files in ArcInfo ASCII grid format.</td></tr><tr><td><a href="SIRFile.FindAndConvertToBinaryRasters.html?format=raw">Find SIR Files and Convert To Binary Rasters</a></td><td>Finds SIR files in a directory and converts them to binary rasters.</td></tr><tr><td><a href="SIRFile.FindAndExtractHeaders.html?format=raw">Find SIR Files and Extract Headers</a></td><td>Finds SIR files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToLines.html?format=raw">Find and Convert ArcGIS Rasters to Lines</a></td><td>Finds rasters in an ArcGIS workspace and converts them to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPoints.html?format=raw">Find and Convert ArcGIS Rasters to Points</a></td><td>Finds rasters in an ArcGIS workspace and converts them to points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPolygonOutlines.html?format=raw">Find and Convert ArcGIS Rasters to Polygon Outlines</a></td><td>Finds rasters in an ArcGIS workspace and converts them to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPolygons.html?format=raw">Find and Convert ArcGIS Rasters to Polygons</a></td><td>Finds rasters in an ArcGIS workspace and converts them to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="Directory.FindAndCopy.html?format=raw">Find and Copy Directories</a></td><td>Finds and copies directories in a directory.</td></tr><tr><td><a href="File.FindAndCopy.html?format=raw">Find and Copy Files</a></td><td>Finds and copies files in a directory.</td></tr><tr><td><a href="ArcGISRaster.FindAndCopy.html?format=raw">Find and Copy Rasters</a></td><td>Finds and copies rasters in an ArcGIS workspace.</td></tr><tr><td><a href="Directory.FindAndDelete.html?format=raw">Find and Delete Directories</a></td><td>Finds and deletes directories in a directory.</td></tr><tr><td><a href="File.FindAndDelete.html?format=raw">Find and Delete Files</a></td><td>Finds and deletes files in a directory.</td></tr><tr><td><a href="ArcGISRaster.FindAndDelete.html?format=raw">Find and Delete Rasters</a></td><td>Finds and deletes rasters in an ArcGIS workspace.</td></tr><tr><td><a href="Directory.FindAndMove.html?format=raw">Find and Move Directories</a></td><td>Finds and moves directories in a directory.</td></tr><tr><td><a href="File.FindAndMove.html?format=raw">Find and Move Files</a></td><td>Finds and moves files in a directory.</td></tr><tr><td><a href="ArcGISRaster.FindAndMove.html?format=raw">Find and Move Rasters</a></td><td>Finds and moves rasters in an ArcGIS workspace.</td></tr><tr><td><a href="GAM.FitToArcGISTable.html?format=raw">Fit GAM</a></td><td>Fits a generalized additive model (GAM) to data in a table.</td></tr><tr><td><a href="GLM.FitToArcGISTable.html?format=raw">Fit GLM</a></td><td>Fits a generalized linear model (GLM) to data in a table using the R glm function.</td></tr><tr><td><a href="LinearMixedModel.FitToArcGISTable.html?format=raw">Fit Linear Mixed Model</a></td><td>Fits a linear mixed-effects model to data in a table.</td></tr><tr><td><a href="RandomForestModel.FitToArcGISTable.html?format=raw">Fit Random Forest Model</a></td><td>Fits a random forest model to data in a table.</td></tr><tr><td><a href="TreeModel.FitToArcGISTable.html?format=raw">Fit Tree Model</a></td><td>Fits a tree model to data in a table.</td></tr><tr><td><a href="DiGIR.GetResourcesAsArcGISTable.html?format=raw">Get DiGIR Resources as Table</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from a DiGIR server and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.GetOBISResourcesAsArcGISTable.html?format=raw">Get OBIS DiGIR Resources as Table</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from OBIS and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.GetOBISSEAMAPResourcesAsArcGISTable.html?format=raw">Get OBIS-SEAMAP DiGIR Resources as Table</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from OBIS-SEAMAP and writes it to an ArcGIS table.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.InterpolateAtArcGISPoints.html?format=raw">Interpolate AVHRR Pathfinder V5 SST at Points</a></td><td>Interpolates AVHRR Pathfinder Version 5 SST values at points.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.InterpolateAtArcGISPoints.html?format=raw">Interpolate Aviso Geostrophic Currents Product at Points</a></td><td>Interpolates the values of an Aviso gridded geostrophic currents product at points.</td></tr><tr><td><a href="AvisoGriddedSSH.InterpolateAtArcGISPoints.html?format=raw">Interpolate Aviso SSH Product at Points</a></td><td>Interpolates the values of an Aviso gridded sea surface height product at points.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.InterpolateAtArcGISPoints.html?format=raw">Interpolate Aviso Significant Wave Height Product at Points</a></td><td>Interpolates the values of an Aviso gridded significant wave height product at points.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.InterpolateAtArcGISPoints.html?format=raw">Interpolate Aviso Wind Speed Modulus Product at Points</a></td><td>Interpolates the values of an Aviso gridded wind speed modulus product at points.</td></tr><tr><td><a href="CoRTADv32D.InterpolateAtArcGISPoints.html?format=raw">Interpolate CoRTAD 2D Variables at Points</a></td><td>Interpolates CoRTAD 2D variables at points.</td></tr><tr><td><a href="CoRTADv33D.InterpolateAtArcGISPoints.html?format=raw">Interpolate CoRTAD 3D Variables at Points</a></td><td>Interpolates CoRTAD 3D variables at points.</td></tr><tr><td><a href="GHRSSTLevel4.InterpolateAtArcGISPoints.html?format=raw">Interpolate GHRSST L4 SST at Points</a></td><td>Interpolates values of a GHRSST L4 product hosted by NASA JPL PO.DAAC at points.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.InterpolateAtArcGISPoints.html?format=raw">Interpolate HYCOM GLBa0.08 Equatorial 3D Variables at Points</a></td><td>Interpolates 3D variables of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset at points.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.InterpolateAtArcGISPoints.html?format=raw">Interpolate HYCOM GLBa0.08 Equatorial 4D Variables at Points</a></td><td>Interpolates 4D variables of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset at points.</td></tr><tr><td><a href="HYCOMGOMl0043D.InterpolateAtArcGISPoints.html?format=raw">Interpolate HYCOM GOMl0.04 3D Variables at Points</a></td><td>Interpolates HYCOM GOMl0.04 3D variables at points.</td></tr><tr><td><a href="HYCOMGOMl0044D.InterpolateAtArcGISPoints.html?format=raw">Interpolate HYCOM GOMl0.04 4D Variables at Points</a></td><td>Interpolates HYCOM GOMl0.04 4D variables at points.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.InterpolateAtArcGISPoints.html?format=raw">Interpolate NASA OceanColor L3 SMI Product at Points</a></td><td>Interpolates the values of a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group at points.</td></tr><tr><td><a href="Interpolator.InpaintArcGISRaster.html?format=raw">Interpolate No Data Cells</a></td><td>Interpolates values for the No Data cells of a raster.</td></tr><tr><td><a href="Interpolator.InpaintArcGISRasterArcGISTable.html?format=raw">Interpolate No Data Cells for ArcGIS Rasters Listed in Table</a></td><td>Interpolates values for the No Data cells for each ArcGIS raster in a table.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.InterpolateAtArcGISPoints.html?format=raw">Interpolate OSCAR Currents at Points</a></td><td>Interpolates the values of NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents at points.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.InterpolateAtArcGISPoints.html?format=raw">Interpolate PO.DAAC MODIS L3 SST at Points</a></td><td>Interpolates PO.DAAC MODIS Level 3 SST values at points.</td></tr><tr><td><a href="ROMSCoSiNE2D.InterpolateAtArcGISPoints.html?format=raw">Interpolate Pacific ROMS-CoSiNE 2D Variable at Points</a></td><td>Interpolates a Pacific ROMS-CoSiNE 2D variable at points.</td></tr><tr><td><a href="ROMSCoSiNE3D.InterpolateAtArcGISPoints.html?format=raw">Interpolate Pacific ROMS-CoSiNE 3D Variables at Points</a></td><td>Interpolates Pacific ROMS-CoSiNE 3D variables at points.</td></tr><tr><td><a href="ROMSCoSiNE4D.InterpolateAtArcGISPoints.html?format=raw">Interpolate Pacific ROMS-CoSiNE 4D Variables at Points</a></td><td>Interpolates Pacific ROMS-CoSiNE 4D variables at points.</td></tr><tr><td><a href="Interpolator.InterpolateArcGISRasterValuesAtPoints.html?format=raw">Interpolate Raster Values at Points</a></td><td>Interpolates the values of rasters at points.</td></tr><tr><td><a href="CoralReefConnectivity.LoadAvisoGeostrophicCurrentsIntoSimulation.html?format=raw">Load Aviso Geostrophic Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads Aviso geostrophic currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadHYCOMGLBa0084DEquatorialCurrentsIntoSimulation.html?format=raw">Load HYCOM GLBa0.08 Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads HYCOM GLBa0.08 ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadHYCOMGOMl0044DCurrentsIntoSimulation.html?format=raw">Load HYCOM GOMl0.04 Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads HYCOM GOMl0.04 ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadOSCARCurrentsIntoSimulation.html?format=raw">Load OSCAR Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadROMSCoSiNE4DCurrentsIntoSimulation.html?format=raw">Load Pacific ROMS-CoSiNE Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads Pacific ROMS-CoSiNE ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="Directory.MoveArcGISTable.html?format=raw">Move Directories Listed in Table</a></td><td>Moves the directories listed in a table.</td></tr><tr><td><a href="Directory.Move.html?format=raw">Move Directory</a></td><td>Moves a directory, including its subdirectories and files.</td></tr><tr><td><a href="File.Move.html?format=raw">Move File</a></td><td>Moves a file.</td></tr><tr><td><a href="File.MoveArcGISTable.html?format=raw">Move Files Listed in Table</a></td><td>Moves the files listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Move.html?format=raw">Move Raster</a></td><td>Moves an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.MoveArcGISTable.html?format=raw">Move Rasters Listed in Table</a></td><td>Moves the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="GAM.PredictFromArcGISRasters.html?format=raw">Predict GAM From Rasters</a></td><td>Using a fitted generalized additive model (GAM), this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="GAM.PredictFromArcGISTable.html?format=raw">Predict GAM From Table</a></td><td>Given a fitted generalized additive model (GAM), this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="GLM.PredictFromArcGISRasters.html?format=raw">Predict GLM From Rasters</a></td><td>Using a fitted generalized linear model (GLM), this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="GLM.PredictFromArcGISTable.html?format=raw">Predict GLM From Table</a></td><td>Given a fitted generalized linear model (GLM), this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="LinearMixedModel.PredictFromArcGISRasters.html?format=raw">Predict Linear Mixed Model From Rasters</a></td><td>Using a fitted linear mixed model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="RandomForestModel.PredictFromArcGISRasters.html?format=raw">Predict Random Forest From Rasters</a></td><td>Using a fitted random forest model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="RandomForestModel.PredictFromArcGISTable.html?format=raw">Predict Random Forest From Table</a></td><td>Given a random forest model, this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="TreeModel.PredictFromArcGISRasters.html?format=raw">Predict Tree Model From Rasters</a></td><td>Using a fitted tree model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="TreeModel.PredictFromArcGISTable.html?format=raw">Predict Tree Model From Table</a></td><td>Given a fitted tree model, this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="ArcGISRaster.ProjectToTemplate.html?format=raw">Project Raster to Template</a></td><td>Projects a raster to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.ProjectToTemplateArcGISTable.html?format=raw">Project Rasters Listed in Table to Template</a></td><td>Projects a table of rasters to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.ProjectClipAndOrExecuteMapAlgebra.html?format=raw">Project, Clip, and/or Execute Map Algebra</a></td><td>Projects, clips, and/or perfoms map algebra on an ArcGIS raster. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcGISRaster.ProjectClipAndOrExecuteMapAlgebraArcGISTable.html?format=raw">Project, Clip, and/or Execute Map Algebra on ArcGIS Rasters Listed in Table</a></td><td>Projects, clips, and/or perfoms map algebra on the ArcGIS rasters listed in a table. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ModelEvaluation.RandomlySplitArcGISTableIntoTrainingAndTestRecords.html?format=raw">Randomly Split Table Into Training and Test Records</a></td><td>Randomly designates the records of a table as either training records (for fitting a predictive model) or test records (for evaluating the model).</td></tr><tr><td><a href="CoralReefConnectivity.RunSimulation.html?format=raw">Run Coral Reef Connectivity Simulation</a></td><td>Executes a coral coral reef connectivity simulation.</td></tr><tr><td><a href="ArcGISFeatureSampler.SamplePolygons.html?format=raw">Sample Polygons</a></td><td>Samples the values of polygon fields at points that intersect the polygons.</td></tr><tr><td><a href="ArcGISRasterSampler.SampleRasters.html?format=raw">Sample Rasters</a></td><td>Samples rasters using a point feature class and stores the sampled values in fields of the feature class.</td></tr><tr><td><a href="ArcGISRasterSampler.SampleRastersInFields.html?format=raw">Sample Rasters Listed in Fields</a></td><td>Samples rasters listed in fields of a point feature class and stores the sampled values in other fields.</td></tr><tr><td><a href="ArcGISTableSampler.SampleTimeSeriesTable.html?format=raw">Sample Time Series Table</a></td><td>Matches records in a destination table to records in a time series table by date, and copies values of fields of the time series table to fields of the destination table.</td></tr><tr><td><a href="RExploratoryPlots.ScatterplotMatrixForArcGISTable.html?format=raw">Scatterplot Matrix for Table</a></td><td>Creates a matrix of scatterplots for a table using the R pairs function.</td></tr><tr><td><a href="DiGIR.SearchAndCreateArcGISPoints.html?format=raw">Search DiGIR Records and Create Points</a></td><td>Searches a Distributed Generic Information Retrieval (DiGIR) server for georeferenced records and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="DiGIR.SearchOBISAndCreateArcGISPoints.html?format=raw">Search OBIS DiGIR Records and Create Points</a></td><td>Searches OBIS for georeferenced records using the Distributed Generic Information Retrieval (DiGIR) protocol and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="DiGIR.SearchOBISSEAMAPAndCreateArcGISPoints.html?format=raw">Search OBIS-SEAMAP DiGIR Records and Create Points</a></td><td>Searches OBIS-SEAMAP for georeferenced records using the Distributed Generic Information Retrieval (DiGIR) protocol and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="CoastWatchAVHRR.SetNavigationOffsets.html?format=raw">Set CoastWatch Navigation Offsets</a></td><td>Sets the navigation offsets of a CoastWatch POES AVHRR CWF or HDF file.</td></tr><tr><td><a href="CoastWatchAVHRR.SetNavigationOffsetsArcGISTable.html?format=raw">Set Navigation Offsets of CoastWatch Files Listed in Table</a></td><td>Sets the navigation offsets of the CoastWatch POES AVHRR CWF or HDF files listed in a table to the values specified by two fields.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.SingleOutputMapAlgebraForRasterArcGISTable.html?format=raw">Single Output Map Algebra For Rasters Listed in Table</a></td><td>Executes a map algebra expression on the rasters listed in a table.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.SingleOutputMapAlgebraForArcGISTableRows.html?format=raw">Single Output Map Algebra for Table Rows</a></td><td>For each row of a table, calculates an output raster and map algebra expression from the row using Python expressions and executes the map algebra expression to produce the output raster.</td></tr><tr><td><a href="BinaryRaster.SwapBytes.html?format=raw">Swap Bytes of Binary Raster</a></td><td>Reverses the byte order of a binary raster (e.g. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="BinaryRaster.SwapBytesArcGISTable.html?format=raw">Swap Bytes of Binary Rasters Listed in Table</a></td><td>Reverses the byte order of each binary raster listed in a table (i.e. converts "little endian" to "big endian", or visa versa).</td></tr></table></p><h1><a id="IndexByName">Tool Index, By Name</a></h1><p>In the table below, <i>Tool Name</i> is the programming name used to invoke the tool
-         from the ArcGIS command line or from the geoprocessor object in a geoprocessing script.</p><p><table><tr><th>Tool Name</th><th>Description</th></tr><tr><td><a href="ADODatabaseConnection.ConnectAndExecuteCommand.html?format=raw">ADODatabaseConnectionConnectAndExecuteCommand_GeoEco</a></td><td>Opens a Microsoft ActiveX Data Objects (ADO) connection to a database and executes a command.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateArcGISRasters.html?format=raw">AVHRRPathfinderSSTTimeSeriesCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for AVHRR Pathfinder Version 5 SST images published by NOAA NODC.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">AVHRRPathfinderSSTTimeSeriesCreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in AVHRR Pathfinder Version 5 SST images published by NOAA NODC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">AVHRRPathfinderSSTTimeSeriesCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters from AVHRR Pathfinder Version 5 SST images published by NOAA NODC.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.InterpolateAtArcGISPoints.html?format=raw">AVHRRPathfinderSSTTimeSeriesInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates AVHRR Pathfinder Version 5 SST values at points.</td></tr><tr><td><a href="ArcGISFeatureSampler.SamplePolygons.html?format=raw">ArcGISFeatureSamplerSamplePolygons_GeoEco</a></td><td>Samples the values of polygon fields at points that intersect the polygons.</td></tr><tr><td><a href="ArcGISFishnets.CreateFishnetForPoints.html?format=raw">ArcGISFishnetsCreateFishnetForPoints_GeoEco</a></td><td>Creates a grid of rectangular cells that overlap the input points and optionally calculates summary statistics for the points that intersect each cell.</td></tr><tr><td><a href="ArcGISFishnets.CreateFishnet.html?format=raw">ArcGISFishnetsCreateFishnet_GeoEco</a></td><td>Creates a grid of rectangular polygons.</td></tr><tr><td><a href="ArcGISLines.FromVectorComponentRastersInArcGISTable.html?format=raw">ArcGISLinesFromVectorComponentRastersInArcGISTable_GeoEco</a></td><td>Given a table of rasters representing the x and y components of vector fields, such as the u and v rasters for ocean currents, this tool creates feature classes of lines representing the vectors, similar to a "quiver plot".</td></tr><tr><td><a href="ArcGISLines.FromVectorComponentRasters.html?format=raw">ArcGISLinesFromVectorComponentRasters_GeoEco</a></td><td>Given rasters representing the x and y components of a vector field, such as the u and v rasters for ocean currents, this tool creates a feature class of lines representing the vectors, similar to a "quiver plot".</td></tr><tr><td><a href="ArcGISPoints.AppendPointsToFeatureClass2.html?format=raw">ArcGISPointsAppendPointsToFeatureClass2_GeoEco</a></td><td>Appends points to an existing ArcGIS point feature class.</td></tr><tr><td><a href="ArcGISPoints.CreateFeatureClassWithPoints2.html?format=raw">ArcGISPointsCreateFeatureClassWithPoints2_GeoEco</a></td><td>Creates points in a new ArcGIS point feature class.</td></tr><tr><td><a href="ArcGISPoints.CreatePointsAlongLines.html?format=raw">ArcGISPointsCreatePointsAlongLines_GeoEco</a></td><td>Creates points along lines at a specified interval.</td></tr><tr><td><a href="ArcGISPoints.FindNearestFeaturesListedInField.html?format=raw">ArcGISPointsFindNearestFeaturesListedInField_GeoEco</a></td><td>For each point, using the feature class or layer listed in a field, finds the nearest feature and writes its ID, distance, angle, and/or values of specified fields to fields of the point. Use this tool when you have a single point feature class but need to find distances to different near feature classes or layers for different points.</td></tr><tr><td><a href="ArcGISPoints.FindNearestFeatures.html?format=raw">ArcGISPointsFindNearestFeatures_GeoEco</a></td><td>For each point, finds the nearest feature and writes its ID, distance, angle, and/or values of specified fields to fields of the point.</td></tr><tr><td><a href="ArcGISPolygons.AppendPolygonToFeatureClass2.html?format=raw">ArcGISPolygonsAppendPolygonToFeatureClass2_GeoEco</a></td><td>Appends a polygon to an existing ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISPolygons.AppendRectangleToFeatureClass2.html?format=raw">ArcGISPolygonsAppendRectangleToFeatureClass2_GeoEco</a></td><td>Appends a rectangle to an existing ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISPolygons.CreateBoundingBoxForArcGISGeoDatasets.html?format=raw">ArcGISPolygonsCreateBoundingBoxForArcGISGeoDatasets_GeoEco</a></td><td>Creates a new ArcGIS polygon feature class and a bounding box (a minimum bounding rectangle) within it that encompasses the extents of one or more ArcGIS geodatasets.</td></tr><tr><td><a href="ArcGISPolygons.CreateFeatureClassWithPolygon2.html?format=raw">ArcGISPolygonsCreateFeatureClassWithPolygon2_GeoEco</a></td><td>Creates a polygon in a new ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISPolygons.CreateFeatureClassWithRectangle2.html?format=raw">ArcGISPolygonsCreateFeatureClassWithRectangle2_GeoEco</a></td><td>Creates a rectangle in a new ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISRaster.CopyArcGISTable.html?format=raw">ArcGISRasterCopyArcGISTable_GeoEco</a></td><td>Copies the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Copy.html?format=raw">ArcGISRasterCopy_GeoEco</a></td><td>Copies an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.CreateXRaster.html?format=raw">ArcGISRasterCreateXRaster_GeoEco</a></td><td>Creates an ArcGIS raster where the value of each cell is the X coordinate of the cell.</td></tr><tr><td><a href="ArcGISRaster.CreateYRaster.html?format=raw">ArcGISRasterCreateYRaster_GeoEco</a></td><td>Creates an ArcGIS raster where the value of each cell is the Y coordinate of the cell.</td></tr><tr><td><a href="ArcGISRaster.DeleteArcGISTable.html?format=raw">ArcGISRasterDeleteArcGISTable_GeoEco</a></td><td>Deletes the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Delete.html?format=raw">ArcGISRasterDelete_GeoEco</a></td><td>Deletes an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.ExtractByMaskArcGISTable.html?format=raw">ArcGISRasterExtractByMaskArcGISTable_GeoEco</a></td><td>For each ArcGIS raster in a table, extracts the cells that correspond to the areas defined by a mask.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToLines.html?format=raw">ArcGISRasterFindAndConvertToLines_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and converts them to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPoints.html?format=raw">ArcGISRasterFindAndConvertToPoints_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and converts them to points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPolygonOutlines.html?format=raw">ArcGISRasterFindAndConvertToPolygonOutlines_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and converts them to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPolygons.html?format=raw">ArcGISRasterFindAndConvertToPolygons_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and converts them to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndCopy.html?format=raw">ArcGISRasterFindAndCopy_GeoEco</a></td><td>Finds and copies rasters in an ArcGIS workspace.</td></tr><tr><td><a href="ArcGISRaster.FindAndCreateArcGISTable.html?format=raw">ArcGISRasterFindAndCreateArcGISTable_GeoEco</a></td><td>Finds rasters within an ArcGIS workspace and creates a table that lists them.</td></tr><tr><td><a href="ArcGISRaster.FindAndDelete.html?format=raw">ArcGISRasterFindAndDelete_GeoEco</a></td><td>Finds and deletes rasters in an ArcGIS workspace.</td></tr><tr><td><a href="ArcGISRaster.FindAndExtractByMask.html?format=raw">ArcGISRasterFindAndExtractByMask_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and extracts the cells that correspond to the areas defined by a mask.</td></tr><tr><td><a href="ArcGISRaster.FindAndMove.html?format=raw">ArcGISRasterFindAndMove_GeoEco</a></td><td>Finds and moves rasters in an ArcGIS workspace.</td></tr><tr><td><a href="ArcGISRaster.FindAndProjectClipAndOrExecuteMapAlgebra.html?format=raw">ArcGISRasterFindAndProjectClipAndOrExecuteMapAlgebra_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and projects, clips, and/or perfoms map algebra on them. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcGISRaster.FindAndProjectRastersToTemplate.html?format=raw">ArcGISRasterFindAndProjectRastersToTemplate_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and projects them to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.MoveArcGISTable.html?format=raw">ArcGISRasterMoveArcGISTable_GeoEco</a></td><td>Moves the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Move.html?format=raw">ArcGISRasterMove_GeoEco</a></td><td>Moves an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.ProjectClipAndOrExecuteMapAlgebraArcGISTable.html?format=raw">ArcGISRasterProjectClipAndOrExecuteMapAlgebraArcGISTable_GeoEco</a></td><td>Projects, clips, and/or perfoms map algebra on the ArcGIS rasters listed in a table. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcGISRaster.ProjectClipAndOrExecuteMapAlgebra.html?format=raw">ArcGISRasterProjectClipAndOrExecuteMapAlgebra_GeoEco</a></td><td>Projects, clips, and/or perfoms map algebra on an ArcGIS raster. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcGISRaster.ProjectToTemplateArcGISTable.html?format=raw">ArcGISRasterProjectToTemplateArcGISTable_GeoEco</a></td><td>Projects a table of rasters to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.ProjectToTemplate.html?format=raw">ArcGISRasterProjectToTemplate_GeoEco</a></td><td>Projects a raster to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.ToLinesArcGISTable.html?format=raw">ArcGISRasterToLinesArcGISTable_GeoEco</a></td><td>Converts the ArcGIS rasters listed in a table to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToLines.html?format=raw">ArcGISRasterToLines_GeoEco</a></td><td>Converts an ArcGIS raster to a feature class of lines that connect adjacent foreground raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPointsArcGISTable.html?format=raw">ArcGISRasterToPointsArcGISTable_GeoEco</a></td><td>Converts the ArcGIS rasters listed in a table to points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPoints.html?format=raw">ArcGISRasterToPoints_GeoEco</a></td><td>Converts an ArcGIS raster to a feature class of points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonOutlinesArcGISTable.html?format=raw">ArcGISRasterToPolygonOutlinesArcGISTable_GeoEco</a></td><td>Converts the ArcGIS rasters listed in a table to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonOutlines.html?format=raw">ArcGISRasterToPolygonOutlines_GeoEco</a></td><td>Converts an ArcGIS raster to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonsArcGISTable.html?format=raw">ArcGISRasterToPolygonsArcGISTable_GeoEco</a></td><td>Converts the ArcGIS rasters listed in a table to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygons.html?format=raw">ArcGISRasterToPolygons_GeoEco</a></td><td>Converts an ArcGIS raster to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.FindRastersAndExecuteSingleOutputMapAlgebra.html?format=raw">ArcGISRasterMapAlgebraFindRastersAndExecuteSingleOutputMapAlgebra_GeoEco</a></td><td>Finds rasters in a workspace and executes a map algebra expression on them.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.SingleOutputMapAlgebraForArcGISTableRows.html?format=raw">ArcGISRasterMapAlgebraSingleOutputMapAlgebraForArcGISTableRows_GeoEco</a></td><td>For each row of a table, calculates an output raster and map algebra expression from the row using Python expressions and executes the map algebra expression to produce the output raster.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.SingleOutputMapAlgebraForRasterArcGISTable.html?format=raw">ArcGISRasterMapAlgebraSingleOutputMapAlgebraForRasterArcGISTable_GeoEco</a></td><td>Executes a map algebra expression on the rasters listed in a table.</td></tr><tr><td><a href="ArcGISRasterSampler.SampleRastersInFields.html?format=raw">ArcGISRasterSamplerSampleRastersInFields_GeoEco</a></td><td>Samples rasters listed in fields of a point feature class and stores the sampled values in other fields.</td></tr><tr><td><a href="ArcGISRasterSampler.SampleRasters.html?format=raw">ArcGISRasterSamplerSampleRasters_GeoEco</a></td><td>Samples rasters using a point feature class and stores the sampled values in fields of the feature class.</td></tr><tr><td><a href="ArcGISTableSampler.SampleTimeSeriesTable.html?format=raw">ArcGISTableSamplerSampleTimeSeriesTable_GeoEco</a></td><td>Matches records in a destination table to records in a time series table by date, and copies values of fields of the time series table to fields of the destination table.</td></tr><tr><td><a href="ArcInfoASCIIGrid.FindAndConvertToArcGISRaster.html?format=raw">ArcInfoASCIIGridFindAndConvertToArcGISRaster_GeoEco</a></td><td>Finds ArcInfo ASCII Grid text files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="ArcInfoASCIIGrid.ToArcGISRasterArcGISTable.html?format=raw">ArcInfoASCIIGridToArcGISRasterArcGISTable_GeoEco</a></td><td>Converts each ArcInfo ASCII Grid text file in a table to an ArcGIS raster.</td></tr><tr><td><a href="ArcInfoASCIIGrid.ToArcGISRaster.html?format=raw">ArcInfoASCIIGridToArcGISRaster_GeoEco</a></td><td>Converts a text file in ArcInfo ASCII Grid format to an ArcGIS raster.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateArcGISRasters.html?format=raw">AvisoGriddedGeostrophicCurrentsCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateClimatologicalArcGISRasters.html?format=raw">AvisoGriddedGeostrophicCurrentsCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateVectorsAsArcGISFeatureClasses.html?format=raw">AvisoGriddedGeostrophicCurrentsCreateVectorsAsArcGISFeatureClasses_GeoEco</a></td><td>Creates line feature classes representing the current vectors of an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.InterpolateAtArcGISPoints.html?format=raw">AvisoGriddedGeostrophicCurrentsInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of an Aviso gridded geostrophic currents product at points.</td></tr><tr><td><a href="AvisoGriddedSSH.CreateArcGISRasters.html?format=raw">AvisoGriddedSSHCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for an Aviso gridded sea surface height product.</td></tr><tr><td><a href="AvisoGriddedSSH.CreateClimatologicalArcGISRasters.html?format=raw">AvisoGriddedSSHCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for an Aviso gridded sea surface height product.</td></tr><tr><td><a href="AvisoGriddedSSH.FindOkuboWeissEddies.html?format=raw">AvisoGriddedSSHFindOkuboWeissEddies_GeoEco</a></td><td>Creates rasters showing the cores of geostrophic eddies detected in an Aviso gridded sea surface height product using the Okubo-Weiss algorithm.</td></tr><tr><td><a href="AvisoGriddedSSH.InterpolateAtArcGISPoints.html?format=raw">AvisoGriddedSSHInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of an Aviso gridded sea surface height product at points.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.CreateArcGISRasters.html?format=raw">AvisoGriddedSignificantWaveHeightCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for an Aviso gridded significant wave height product.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.CreateClimatologicalArcGISRasters.html?format=raw">AvisoGriddedSignificantWaveHeightCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for an Aviso gridded significant wave height product.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.InterpolateAtArcGISPoints.html?format=raw">AvisoGriddedSignificantWaveHeightInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of an Aviso gridded significant wave height product at points.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.CreateArcGISRasters.html?format=raw">AvisoGriddedWindSpeedModulusCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for an Aviso gridded wind speed modulus product.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.CreateClimatologicalArcGISRasters.html?format=raw">AvisoGriddedWindSpeedModulusCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for an Aviso gridded wind speed modulus product.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.InterpolateAtArcGISPoints.html?format=raw">AvisoGriddedWindSpeedModulusInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of an Aviso gridded wind speed modulus product at points.</td></tr><tr><td><a href="BinaryRaster.FindAndConvertToArcGISRaster.html?format=raw">BinaryRasterFindAndConvertToArcGISRaster_GeoEco</a></td><td>Finds two-dimensional binary rasters in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="BinaryRaster.FindAndConvertToArcInfoASCIIGrid.html?format=raw">BinaryRasterFindAndConvertToArcInfoASCIIGrid_GeoEco</a></td><td>Finds two-dimensional binary rasters in a directory and converts them to text files in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="BinaryRaster.FindAndSwapBytes.html?format=raw">BinaryRasterFindAndSwapBytes_GeoEco</a></td><td>Finds and reverses the byte order of binary rasters in a directory (i.e. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="BinaryRaster.SwapBytesArcGISTable.html?format=raw">BinaryRasterSwapBytesArcGISTable_GeoEco</a></td><td>Reverses the byte order of each binary raster listed in a table (i.e. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="BinaryRaster.SwapBytes.html?format=raw">BinaryRasterSwapBytes_GeoEco</a></td><td>Reverses the byte order of a binary raster (e.g. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="BinaryRaster.ToArcGISRasterArcGISTable.html?format=raw">BinaryRasterToArcGISRasterArcGISTable_GeoEco</a></td><td>Converts each two-dimensional binary raster in a table to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcGISRaster.html?format=raw">BinaryRasterToArcGISRaster_GeoEco</a></td><td>Converts a two-dimensional binary raster to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcInfoASCIIGridArcGISTable.html?format=raw">BinaryRasterToArcInfoASCIIGridArcGISTable_GeoEco</a></td><td>Converts each two-dimensional binary raster in a table to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="BinaryRaster.ToArcInfoASCIIGrid.html?format=raw">BinaryRasterToArcInfoASCIIGrid_GeoEco</a></td><td>Converts a two-dimensional binary raster to a text file in ArcGIS ASCII Grid format.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInArcGISRaster.html?format=raw">CayulaCornillonEdgeDetectionDetectEdgesInArcGISRaster_GeoEco</a></td><td>Finds fronts in an ArcGIS raster using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInArcGISRastersArcGISTable.html?format=raw">CayulaCornillonEdgeDetectionDetectEdgesInArcGISRastersArcGISTable_GeoEco</a></td><td>Finds fronts in ArcGIS rasters listed in a table using the Cayula and Cornillon (1992) single-image edge detection algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInBinaryRaster.html?format=raw">CayulaCornillonEdgeDetectionDetectEdgesInBinaryRaster_GeoEco</a></td><td>Finds fronts in a binary raster using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.FindArcGISRastersAndDetectEdges.html?format=raw">CayulaCornillonEdgeDetectionFindArcGISRastersAndDetectEdges_GeoEco</a></td><td>Finds ArcGIS rasters in a workspace and finds fronts within them using the Cayula and Cornillon (1992) single-image edge detection algorithm.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ConvertToSpatiaLite.html?format=raw">CheltonMesocaleEddyPointsConvertToSpatiaLite_GeoEco</a></td><td>Converts the Chelton et al. (2011) mesoscale eddy database netCDF file to a SpatiaLite database.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ExtractArcGISLinesFromSpatiaLite.html?format=raw">CheltonMesocaleEddyPointsExtractArcGISLinesFromSpatiaLite_GeoEco</a></td><td>Extracts eddy tracklines from the Chelton et al. (2011) mesoscale eddy database in SpatiaLite format.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ExtractArcGISPointsFromSpatiaLite.html?format=raw">CheltonMesocaleEddyPointsExtractArcGISPointsFromSpatiaLite_GeoEco</a></td><td>Extracts eddy centroid points from the Chelton et al. (2011) mesoscale eddy database in SpatiaLite format.</td></tr><tr><td><a href="ChildProcess.ExecuteProgram.html?format=raw">ChildProcessExecuteProgram_GeoEco</a></td><td>Executes the specified program and captures its output.</td></tr><tr><td><a href="CoRTADv32D.CreateArcGISRaster.html?format=raw">CoRTADv32DCreateArcGISRaster_GeoEco</a></td><td>Creates a raster for a CoRTAD 2D variable.</td></tr><tr><td><a href="CoRTADv32D.InterpolateAtArcGISPoints.html?format=raw">CoRTADv32DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates CoRTAD 2D variables at points.</td></tr><tr><td><a href="CoRTADv33D.CreateArcGISRasters.html?format=raw">CoRTADv33DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters a CoRTAD 3D variable.</td></tr><tr><td><a href="CoRTADv33D.InterpolateAtArcGISPoints.html?format=raw">CoRTADv33DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates CoRTAD 3D variables at points.</td></tr><tr><td><a href="CoastWatchAVHRR.CopyNavigationOffsetsArcGISTable.html?format=raw">CoastWatchAVHRRCopyNavigationOffsetsArcGISTable_GeoEco</a></td><td>Copies navigation offsets from a source variable to destination variables in CoastWatch POES AVHRR CWF or HDF files listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.CopyNavigationOffsets.html?format=raw">CoastWatchAVHRRCopyNavigationOffsets_GeoEco</a></td><td>Copies the navigation offsets from one variable in a CoastWatch POES AVHRR CWF or HDF file to one or more variables in another file.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMaskAsArcGISRaster.html?format=raw">CoastWatchAVHRRCreateMaskAsArcGISRaster_GeoEco</a></td><td>Creates a mask, in ArcGIS raster format, for a CoastWatch POES AVHRR image.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMaskAsBinaryRaster.html?format=raw">CoastWatchAVHRRCreateMaskAsBinaryRaster_GeoEco</a></td><td>Creates a mask, in binary raster format, for a CoastWatch POES AVHRR image.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMasksAsArcGISRastersArcGISTable.html?format=raw">CoastWatchAVHRRCreateMasksAsArcGISRastersArcGISTable_GeoEco</a></td><td>Creates masks, in ArcGIS raster format, for CoastWatch POES AVHRR images listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMasksAsBinaryRastersArcGISTable.html?format=raw">CoastWatchAVHRRCreateMasksAsBinaryRastersArcGISTable_GeoEco</a></td><td>Creates masks, in binary raster format, for CoastWatch POES AVHRR images listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToArcGISRasters.html?format=raw">CoastWatchAVHRRFindAndConvertToArcGISRasters_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToBinaryRasters.html?format=raw">CoastWatchAVHRRFindAndConvertToBinaryRasters_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and converts them to binary rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToCoastWatchHDFs.html?format=raw">CoastWatchAVHRRFindAndConvertToCoastWatchHDFs_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and imports them into CoastWatch HDFs.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndCreateMasksAsArcGISRasters.html?format=raw">CoastWatchAVHRRFindAndCreateMasksAsArcGISRasters_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in ArcGIS raster format.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndCreateMasksAsBinaryRasters.html?format=raw">CoastWatchAVHRRFindAndCreateMasksAsBinaryRasters_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in binary raster format.</td></tr><tr><td><a href="CoastWatchAVHRR.FindCoastWatchFilesAndFindFrontsAsArcGISRasters.html?format=raw">CoastWatchAVHRRFindCoastWatchFilesAndFindFrontsAsArcGISRasters_GeoEco</a></td><td>Uses the Cayula and Cornillon (1992) single-image edge detection algorithm to find fronts in the CoastWatch POES AVHRR images found in a directory, and outputs the fronts as ArcGIS rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFilesAndCreateArcGISTable.html?format=raw">CoastWatchAVHRRFindFilesAndCreateArcGISTable_GeoEco</a></td><td>Finds CoastWatch POES AVHRR files within a directory and creates a table that lists them.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsArcGISRaster.html?format=raw">CoastWatchAVHRRFindFrontsAsArcGISRaster_GeoEco</a></td><td>Finds fronts in a CoastWatch POES AVHRR image using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them to an ArcGIS raster.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsArcGISRastersArcGISTable.html?format=raw">CoastWatchAVHRRFindFrontsAsArcGISRastersArcGISTable_GeoEco</a></td><td>Finds fronts in CoastWatch POES AVHRR images listed in a table using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them as ArcGIS rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsBinaryRaster.html?format=raw">CoastWatchAVHRRFindFrontsAsBinaryRaster_GeoEco</a></td><td>Finds fronts in a CoastWatch POES AVHRR image using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them to a binary raster.</td></tr><tr><td><a href="CoastWatchAVHRR.FindImagesInFilesAndCreateArcGISTable.html?format=raw">CoastWatchAVHRRFindImagesInFilesAndCreateArcGISTable_GeoEco</a></td><td>Finds CoastWatch POES AVHRR files within a directory and creates a table that lists the images within them.</td></tr><tr><td><a href="CoastWatchAVHRR.SetNavigationOffsetsArcGISTable.html?format=raw">CoastWatchAVHRRSetNavigationOffsetsArcGISTable_GeoEco</a></td><td>Sets the navigation offsets of the CoastWatch POES AVHRR CWF or HDF files listed in a table to the values specified by two fields.</td></tr><tr><td><a href="CoastWatchAVHRR.SetNavigationOffsets.html?format=raw">CoastWatchAVHRRSetNavigationOffsets_GeoEco</a></td><td>Sets the navigation offsets of a CoastWatch POES AVHRR CWF or HDF file.</td></tr><tr><td><a href="CoastWatchAVHRR.ToArcGISRasterArcGISTable.html?format=raw">CoastWatchAVHRRToArcGISRasterArcGISTable_GeoEco</a></td><td>Creates an ArcGIS raster from each CoastWatch POES AVHRR image listed in a table of images, where one field specifies the file path containing the image and another specifies the variable that represents the image.</td></tr><tr><td><a href="CoastWatchAVHRR.ToArcGISRaster.html?format=raw">CoastWatchAVHRRToArcGISRaster_GeoEco</a></td><td>Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to an ArcGIS raster.</td></tr><tr><td><a href="CoastWatchAVHRR.ToBinaryRasterArcGISTable.html?format=raw">CoastWatchAVHRRToBinaryRasterArcGISTable_GeoEco</a></td><td>Creates a binary raster from each CoastWatch POES AVHRR image listed in a table of images, where one field specifies the file path containing the image and another specifies the variable that represents the image.</td></tr><tr><td><a href="CoastWatchAVHRR.ToBinaryRaster.html?format=raw">CoastWatchAVHRRToBinaryRaster_GeoEco</a></td><td>Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to a binary raster.</td></tr><tr><td><a href="CoastWatchAVHRR.ToCoastWatchHDFArcGISTable.html?format=raw">CoastWatchAVHRRToCoastWatchHDFArcGISTable_GeoEco</a></td><td>Creates CoastWatch HDFs in a specified output directory by importing images from the CoastWatch POES AVHRR CWFs or HDFs listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.ToCoastWatchHDF.html?format=raw">CoastWatchAVHRRToCoastWatchHDF_GeoEco</a></td><td>Creates a CoastWatch HDF by importing images from a list of CoastWatch POES AVHRR CWFs or HDFs.</td></tr><tr><td><a href="CoralReefConnectivity.CreateSimulationFromArcGISRasters.html?format=raw">CoralReefConnectivityCreateSimulationFromArcGISRasters_GeoEco</a></td><td>Creates a coral reef connectivity simulation and initializes it with reef data in ArcGIS rasters.</td></tr><tr><td><a href="CoralReefConnectivity.LoadAvisoGeostrophicCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadAvisoGeostrophicCurrentsIntoSimulation_GeoEco</a></td><td>Downloads Aviso geostrophic currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadHYCOMGLBa0084DEquatorialCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadHYCOMGLBa0084DEquatorialCurrentsIntoSimulation_GeoEco</a></td><td>Downloads HYCOM GLBa0.08 ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadHYCOMGOMl0044DCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadHYCOMGOMl0044DCurrentsIntoSimulation_GeoEco</a></td><td>Downloads HYCOM GOMl0.04 ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadOSCARCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadOSCARCurrentsIntoSimulation_GeoEco</a></td><td>Downloads NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadROMSCoSiNE4DCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadROMSCoSiNE4DCurrentsIntoSimulation_GeoEco</a></td><td>Downloads Pacific ROMS-CoSiNE ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.RunSimulation.html?format=raw">CoralReefConnectivityRunSimulation_GeoEco</a></td><td>Executes a coral coral reef connectivity simulation.</td></tr><tr><td><a href="DiGIR.GetOBISResourcesAsArcGISTable.html?format=raw">DiGIRGetOBISResourcesAsArcGISTable_GeoEco</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from OBIS and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.GetOBISSEAMAPResourcesAsArcGISTable.html?format=raw">DiGIRGetOBISSEAMAPResourcesAsArcGISTable_GeoEco</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from OBIS-SEAMAP and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.GetResourcesAsArcGISTable.html?format=raw">DiGIRGetResourcesAsArcGISTable_GeoEco</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from a DiGIR server and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.SearchAndCreateArcGISPoints.html?format=raw">DiGIRSearchAndCreateArcGISPoints_GeoEco</a></td><td>Searches a Distributed Generic Information Retrieval (DiGIR) server for georeferenced records and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="DiGIR.SearchOBISAndCreateArcGISPoints.html?format=raw">DiGIRSearchOBISAndCreateArcGISPoints_GeoEco</a></td><td>Searches OBIS for georeferenced records using the Distributed Generic Information Retrieval (DiGIR) protocol and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="DiGIR.SearchOBISSEAMAPAndCreateArcGISPoints.html?format=raw">DiGIRSearchOBISSEAMAPAndCreateArcGISPoints_GeoEco</a></td><td>Searches OBIS-SEAMAP for georeferenced records using the Distributed Generic Information Retrieval (DiGIR) protocol and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="Directory.CopyArcGISTable.html?format=raw">DirectoryCopyArcGISTable_GeoEco</a></td><td>Copies the directories listed in a table.</td></tr><tr><td><a href="Directory.Copy.html?format=raw">DirectoryCopy_GeoEco</a></td><td>Copies a directory, including its subdirectories and files.</td></tr><tr><td><a href="Directory.CreateSubdirectory.html?format=raw">DirectoryCreateSubdirectory_GeoEco</a></td><td>Creates a subdirectory within a parent directory.</td></tr><tr><td><a href="Directory.CreateTemporaryDirectory.html?format=raw">DirectoryCreateTemporaryDirectory_GeoEco</a></td><td>Creates a directory suitable for holding temporary files.</td></tr><tr><td><a href="Directory.Create.html?format=raw">DirectoryCreate_GeoEco</a></td><td>Creates a directory, including any parent directories that are missing.</td></tr><tr><td><a href="Directory.DeleteArcGISTable.html?format=raw">DirectoryDeleteArcGISTable_GeoEco</a></td><td>Deletes the directories listed in a table.</td></tr><tr><td><a href="Directory.Delete.html?format=raw">DirectoryDelete_GeoEco</a></td><td>Deletes a directory.</td></tr><tr><td><a href="Directory.FindAndCopy.html?format=raw">DirectoryFindAndCopy_GeoEco</a></td><td>Finds and copies directories in a directory.</td></tr><tr><td><a href="Directory.FindAndCreateArcGISTable.html?format=raw">DirectoryFindAndCreateArcGISTable_GeoEco</a></td><td>Finds subdirectories within a directory and creates a table that lists them.</td></tr><tr><td><a href="Directory.FindAndDelete.html?format=raw">DirectoryFindAndDelete_GeoEco</a></td><td>Finds and deletes directories in a directory.</td></tr><tr><td><a href="Directory.FindAndMove.html?format=raw">DirectoryFindAndMove_GeoEco</a></td><td>Finds and moves directories in a directory.</td></tr><tr><td><a href="Directory.MoveArcGISTable.html?format=raw">DirectoryMoveArcGISTable_GeoEco</a></td><td>Moves the directories listed in a table.</td></tr><tr><td><a href="Directory.Move.html?format=raw">DirectoryMove_GeoEco</a></td><td>Moves a directory, including its subdirectories and files.</td></tr><tr><td><a href="ESRLClimateIndices.ClassifyONIEpisodesInTimeSeriesArcGISTable.html?format=raw">ESRLClimateIndicesClassifyONIEpisodesInTimeSeriesArcGISTable_GeoEco</a></td><td>Given a time series table of monthly Oceanic Nino Index (ONI) numerical values, classifies each month as part of a normal, El Nino (warm), or La Nina (cold) episode.</td></tr><tr><td><a href="ESRLClimateIndices.FileToArcGISTable.html?format=raw">ESRLClimateIndicesFileToArcGISTable_GeoEco</a></td><td>Creates and populates a table of climate index values parsed from a text file in NOAA ESRL time series format.</td></tr><tr><td><a href="ESRLClimateIndices.FilesToArcGISTable.html?format=raw">ESRLClimateIndicesFilesToArcGISTable_GeoEco</a></td><td>Creates and populates a table of climate index values parsed from a list of text files, where each file contains the data for a single climate index in NOAA ESRL time series format.</td></tr><tr><td><a href="ESRLClimateIndices.UrlToArcGISTable.html?format=raw">ESRLClimateIndicesUrlToArcGISTable_GeoEco</a></td><td>Creates and populates a table of climate index values parsed from NOAA ESRL climate index time series data downloaded from a URL.</td></tr><tr><td><a href="ESRLClimateIndices.UrlsToArcGISTable.html?format=raw">ESRLClimateIndicesUrlsToArcGISTable_GeoEco</a></td><td>Creates and populates a table of climate index values parsed from NOAA ESRL climate index time series data downloaded from a list of URLs.</td></tr><tr><td><a href="FEET.CreateEnvelopes.html?format=raw">FEETCreateEnvelopes_GeoEco</a></td><td>Models the spatial distribution of fishing effort for fisheries for which no spatially-explicit effort data is available.</td></tr><tr><td><a href="Field.CalculateArcGISField.html?format=raw">FieldCalculateArcGISField_GeoEco</a></td><td>Calculates the value of a table field using a Python expression.</td></tr><tr><td><a href="Field.CalculateArcGISFields.html?format=raw">FieldCalculateArcGISFields_GeoEco</a></td><td>Calculates values for one or more fields of a table using Python expressions.</td></tr><tr><td><a href="File.CopyArcGISTable.html?format=raw">FileCopyArcGISTable_GeoEco</a></td><td>Copies the files listed in a table.</td></tr><tr><td><a href="File.Copy.html?format=raw">FileCopy_GeoEco</a></td><td>Copies a file.</td></tr><tr><td><a href="File.Decompress.html?format=raw">FileDecompress_GeoEco</a></td><td>Decompresses a file into a directory.</td></tr><tr><td><a href="File.DeleteArcGISTable.html?format=raw">FileDeleteArcGISTable_GeoEco</a></td><td>Deletes the files listed in a table.</td></tr><tr><td><a href="File.Delete.html?format=raw">FileDelete_GeoEco</a></td><td>Deletes a file.</td></tr><tr><td><a href="File.FindAndCopy.html?format=raw">FileFindAndCopy_GeoEco</a></td><td>Finds and copies files in a directory.</td></tr><tr><td><a href="File.FindAndCreateArcGISTable.html?format=raw">FileFindAndCreateArcGISTable_GeoEco</a></td><td>Finds files within a directory and creates a table that lists them.</td></tr><tr><td><a href="File.FindAndDelete.html?format=raw">FileFindAndDelete_GeoEco</a></td><td>Finds and deletes files in a directory.</td></tr><tr><td><a href="File.FindAndMove.html?format=raw">FileFindAndMove_GeoEco</a></td><td>Finds and moves files in a directory.</td></tr><tr><td><a href="File.IsDecompressible.html?format=raw">FileIsDecompressible_GeoEco</a></td><td>Returns True if the specified file is in a format that can be decompressed.</td></tr><tr><td><a href="File.MoveArcGISTable.html?format=raw">FileMoveArcGISTable_GeoEco</a></td><td>Moves the files listed in a table.</td></tr><tr><td><a href="File.Move.html?format=raw">FileMove_GeoEco</a></td><td>Moves a file.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">FisheryPeriodicityAnalyzeCPUEInArcGISTable_GeoEco</a></td><td>Creates several plots that analyze the temporal periodicity of catch per unit effort (FPUE) calculated from fishing records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeCatchInArcGISTable.html?format=raw">FisheryPeriodicityAnalyzeCatchInArcGISTable_GeoEco</a></td><td>Creates several plots that show the temporal periodicity of catch records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeEffortInArcGISTable.html?format=raw">FisheryPeriodicityAnalyzeEffortInArcGISTable_GeoEco</a></td><td>Creates several plots that show the temporal periodicity of fishing effort records in a table.</td></tr><tr><td><a href="GAM.FitToArcGISTable.html?format=raw">GAMFitToArcGISTable_GeoEco</a></td><td>Fits a generalized additive model (GAM) to data in a table.</td></tr><tr><td><a href="GAM.PredictFromArcGISRasters.html?format=raw">GAMPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted generalized additive model (GAM), this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="GAM.PredictFromArcGISTable.html?format=raw">GAMPredictFromArcGISTable_GeoEco</a></td><td>Given a fitted generalized additive model (GAM), this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="GHRSSTLevel4.CreateArcGISRasters.html?format=raw">GHRSSTLevel4CreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a GHRSST L4 product hosted by NASA JPL PO.DAAC.</td></tr><tr><td><a href="GHRSSTLevel4.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">GHRSSTLevel4CreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in GHRSST L4 SST images hosted by NASA JPL PO.DAAC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="GHRSSTLevel4.CreateClimatologicalArcGISRasters.html?format=raw">GHRSSTLevel4CreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a GHRSST L4 product hosted by NASA JPL PO.DAAC.</td></tr><tr><td><a href="GHRSSTLevel4.InterpolateAtArcGISPoints.html?format=raw">GHRSSTLevel4InterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates values of a GHRSST L4 product hosted by NASA JPL PO.DAAC at points.</td></tr><tr><td><a href="GLM.FitToArcGISTable.html?format=raw">GLMFitToArcGISTable_GeoEco</a></td><td>Fits a generalized linear model (GLM) to data in a table using the R glm function.</td></tr><tr><td><a href="GLM.PredictFromArcGISRasters.html?format=raw">GLMPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted generalized linear model (GLM), this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="GLM.PredictFromArcGISTable.html?format=raw">GLMPredictFromArcGISTable_GeoEco</a></td><td>Given a fitted generalized linear model (GLM), this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="HDF.ExtractHeaderArcGISTable.html?format=raw">HDFExtractHeaderArcGISTable_GeoEco</a></td><td>Extracts the headers of HDF files in a table and saves them to text files.</td></tr><tr><td><a href="HDF.ExtractHeader.html?format=raw">HDFExtractHeader_GeoEco</a></td><td>Extracts the header of an HDF file and saves it to a text file.</td></tr><tr><td><a href="HDF.FindAndConvertToArcGISRasters.html?format=raw">HDFFindAndConvertToArcGISRasters_GeoEco</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to an ArcGIS raster.</td></tr><tr><td><a href="HDF.FindAndConvertToArcInfoASCIIGrids.html?format=raw">HDFFindAndConvertToArcInfoASCIIGrids_GeoEco</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.FindAndConvertToBinaryRasters.html?format=raw">HDFFindAndConvertToBinaryRasters_GeoEco</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to a binary raster.</td></tr><tr><td><a href="HDF.FindAndExtractHeaders.html?format=raw">HDFFindAndExtractHeaders_GeoEco</a></td><td>Finds HDF files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="HDF.SDSToArcGISRaster.html?format=raw">HDFSDSToArcGISRaster_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to an ArcGIS raster.</td></tr><tr><td><a href="HDF.SDSToArcInfoASCIIGrid.html?format=raw">HDFSDSToArcInfoASCIIGrid_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.SDSToBinaryRaster.html?format=raw">HDFSDSToBinaryRaster_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to a binary raster.</td></tr><tr><td><a href="HDF.ToArcGISRasterArcGISTable.html?format=raw">HDFToArcGISRasterArcGISTable_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to an ArcGIS raster.</td></tr><tr><td><a href="HDF.ToArcInfoASCIIGridArcGISTable.html?format=raw">HDFToArcInfoASCIIGridArcGISTable_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to a text file in an ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.ToBinaryRasterArcGISTable.html?format=raw">HDFToBinaryRasterArcGISTable_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to a binary raster.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.CreateArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial3DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a 3D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.CreateClimatologicalArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial3DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a 3D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.InterpolateAtArcGISPoints.html?format=raw">HYCOMGLBa008Equatorial3DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates 3D variables of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset at points.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial4DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial4DCreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in the 2D slices of a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateClimatologicalArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial4DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateCurrentVectorsAsArcGISFeatureClasses.html?format=raw">HYCOMGLBa008Equatorial4DCreateCurrentVectorsAsArcGISFeatureClasses_GeoEco</a></td><td>Creates line feature classes representing the current vectors for the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.InterpolateAtArcGISPoints.html?format=raw">HYCOMGLBa008Equatorial4DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates 4D variables of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset at points.</td></tr><tr><td><a href="HYCOMGOMl0043D.CreateArcGISRasters.html?format=raw">HYCOMGOMl0043DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a HYCOM GOMl0.04 3D variable.</td></tr><tr><td><a href="HYCOMGOMl0043D.CreateClimatologicalArcGISRasters.html?format=raw">HYCOMGOMl0043DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a HYCOM GOMl0.04 3D variable</td></tr><tr><td><a href="HYCOMGOMl0043D.InterpolateAtArcGISPoints.html?format=raw">HYCOMGOMl0043DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates HYCOM GOMl0.04 3D variables at points.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateArcGISRasters.html?format=raw">HYCOMGOMl0044DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a HYCOM GOMl0.04 4D variable.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">HYCOMGOMl0044DCreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in the 2D slices of a HYCOM GOMl0.04 4D variable using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateClimatologicalArcGISRasters.html?format=raw">HYCOMGOMl0044DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a HYCOM GOMl0.04 4D variable</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateCurrentVectorsAsArcGISFeatureClasses.html?format=raw">HYCOMGOMl0044DCreateCurrentVectorsAsArcGISFeatureClasses_GeoEco</a></td><td>Creates line feature classes representing the vectors of HYCOM GOMl0.04 currents.</td></tr><tr><td><a href="HYCOMGOMl0044D.InterpolateAtArcGISPoints.html?format=raw">HYCOMGOMl0044DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates HYCOM GOMl0.04 4D variables at points.</td></tr><tr><td><a href="Interpolator.FindAndInpaintArcGISRasters.html?format=raw">InterpolatorFindAndInpaintArcGISRasters_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and interpolates values for the No Data cells.</td></tr><tr><td><a href="Interpolator.InpaintArcGISRasterArcGISTable.html?format=raw">InterpolatorInpaintArcGISRasterArcGISTable_GeoEco</a></td><td>Interpolates values for the No Data cells for each ArcGIS raster in a table.</td></tr><tr><td><a href="Interpolator.InpaintArcGISRaster.html?format=raw">InterpolatorInpaintArcGISRaster_GeoEco</a></td><td>Interpolates values for the No Data cells of a raster.</td></tr><tr><td><a href="Interpolator.InterpolateArcGISRasterValuesAtPoints.html?format=raw">InterpolatorInterpolateArcGISRasterValuesAtPoints_GeoEco</a></td><td>Interpolates the values of rasters at points.</td></tr><tr><td><a href="LinearMixedModel.FitToArcGISTable.html?format=raw">LinearMixedModelFitToArcGISTable_GeoEco</a></td><td>Fits a linear mixed-effects model to data in a table.</td></tr><tr><td><a href="LinearMixedModel.PredictFromArcGISRasters.html?format=raw">LinearMixedModelPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted linear mixed model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateArcGISRasters.html?format=raw">MODISL3SSTTimeSeriesCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for MODIS Level 3 SST images published by NASA JPL PO.DAAC.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">MODISL3SSTTimeSeriesCreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in MODIS Level 3 SST images published by NASA JPL PO.DAAC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">MODISL3SSTTimeSeriesCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters from MODIS Level 3 SST images published by NASA JPL PO.DAAC.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.InterpolateAtArcGISPoints.html?format=raw">MODISL3SSTTimeSeriesInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates PO.DAAC MODIS Level 3 SST values at points.</td></tr><tr><td><a href="ModelEvaluation.RandomlySplitArcGISTableIntoTrainingAndTestRecords.html?format=raw">ModelEvaluationRandomlySplitArcGISTableIntoTrainingAndTestRecords_GeoEco</a></td><td>Randomly designates the records of a table as either training records (for fitting a predictive model) or test records (for evaluating the model).</td></tr><tr><td><a href="Moon.CalculateMoonPhaseForArcGISTable.html?format=raw">MoonCalculateMoonPhaseForArcGISTable_GeoEco</a></td><td>Given a table with a date field, calculates the phase of the moon and writes it to another field.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToArcGISRasters.html?format=raw">NetCDFConvert2DVariableInNetCDFsInArcGISTableToArcGISRasters_GeoEco</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToArcInfoASCIIGrids.html?format=raw">NetCDFConvert2DVariableInNetCDFsInArcGISTableToArcInfoASCIIGrids_GeoEco</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToBinaryRasters.html?format=raw">NetCDFConvert2DVariableInNetCDFsInArcGISTableToBinaryRasters_GeoEco</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to a binary raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToArcGISRaster.html?format=raw">NetCDFConvert2DVariableToArcGISRaster_GeoEco</a></td><td>Converts a two-dimensional variable in a netCDF file to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToArcInfoASCIIGrid.html?format=raw">NetCDFConvert2DVariableToArcInfoASCIIGrid_GeoEco</a></td><td>Converts a two-dimensional variable in a netCDF file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToBinaryRaster.html?format=raw">NetCDFConvert2DVariableToBinaryRaster_GeoEco</a></td><td>Converts a two-dimensional variable in a netCDF file to a binary raster.</td></tr><tr><td><a href="NetCDF.ExtractHeaderArcGISTable.html?format=raw">NetCDFExtractHeaderArcGISTable_GeoEco</a></td><td>Extracts the headers of netCDF files in a table and saves them to text files.</td></tr><tr><td><a href="NetCDF.ExtractHeader.html?format=raw">NetCDFExtractHeader_GeoEco</a></td><td>Extracts the header of a netCDF file and saves it to a text file.</td></tr><tr><td><a href="NetCDF.FindAndExtractHeaders.html?format=raw">NetCDFFindAndExtractHeaders_GeoEco</a></td><td>Finds netCDF files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToArcGISRasters.html?format=raw">NetCDFFindNetCDFsAndConvert2DVariableToArcGISRasters_GeoEco</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToArcInfoASCIIGrids.html?format=raw">NetCDFFindNetCDFsAndConvert2DVariableToArcInfoASCIIGrids_GeoEco</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToBinaryRasters.html?format=raw">NetCDFFindNetCDFsAndConvert2DVariableToBinaryRasters_GeoEco</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to a binary raster.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateArcGISRasters.html?format=raw">OSCAR5DayThirdDegreeCurrentsCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateClimatologicalArcGISRasters.html?format=raw">OSCAR5DayThirdDegreeCurrentsCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateVectorsAsArcGISFeatureClasses.html?format=raw">OSCAR5DayThirdDegreeCurrentsCreateVectorsAsArcGISFeatureClasses_GeoEco</a></td><td>Creates line feature classes representing the vectors of NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.InterpolateAtArcGISPoints.html?format=raw">OSCAR5DayThirdDegreeCurrentsInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents at points.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.CreateArcGISRasters.html?format=raw">OceanColorLevel3SMITimeSeriesCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">OceanColorLevel3SMITimeSeriesCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.InterpolateAtArcGISPoints.html?format=raw">OceanColorLevel3SMITimeSeriesInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group at points.</td></tr><tr><td><a href="Periodicity.AnalyzeArcGISTable.html?format=raw">PeriodicityAnalyzeArcGISTable_GeoEco</a></td><td>Creates several plots that show the temporal periodicity of the records in a table.</td></tr><tr><td><a href="R.EvaluateFile.html?format=raw">REvaluateFile_GeoEco</a></td><td>Evalutes the R statements in a text file using the R interpreter and returns the result of the last statement.</td></tr><tr><td><a href="R.Evaluate.html?format=raw">REvaluate_GeoEco</a></td><td>Evalutes one or more R statements using the R interpreter and returns the result of the last statement.</td></tr><tr><td><a href="RExploratoryPlots.ClevelandPlotForArcGISTable.html?format=raw">RExploratoryPlotsClevelandPlotForArcGISTable_GeoEco</a></td><td>Creates a multi-panel Cleveland dotplot for a table.</td></tr><tr><td><a href="RExploratoryPlots.DensityHistogramForArcGISField.html?format=raw">RExploratoryPlotsDensityHistogramForArcGISField_GeoEco</a></td><td>Creates a density histogram for a field of a table.</td></tr><tr><td><a href="RExploratoryPlots.DensityHistogramForArcGISPointsCoordinates.html?format=raw">RExploratoryPlotsDensityHistogramForArcGISPointsCoordinates_GeoEco</a></td><td>Creates a density histogram for one of the coordinates of a point feature class or layer.</td></tr><tr><td><a href="RExploratoryPlots.ScatterplotMatrixForArcGISTable.html?format=raw">RExploratoryPlotsScatterplotMatrixForArcGISTable_GeoEco</a></td><td>Creates a matrix of scatterplots for a table using the R pairs function.</td></tr><tr><td><a href="ROMSCoSiNE2D.CreateArcGISRaster.html?format=raw">ROMSCoSiNE2DCreateArcGISRaster_GeoEco</a></td><td>Creates a raster for a Pacific ROMS-CoSiNE 2D variable.</td></tr><tr><td><a href="ROMSCoSiNE2D.InterpolateAtArcGISPoints.html?format=raw">ROMSCoSiNE2DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates a Pacific ROMS-CoSiNE 2D variable at points.</td></tr><tr><td><a href="ROMSCoSiNE3D.CreateArcGISRasters.html?format=raw">ROMSCoSiNE3DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a Pacific ROMS-CoSiNE 3D variable.</td></tr><tr><td><a href="ROMSCoSiNE3D.CreateClimatologicalArcGISRasters.html?format=raw">ROMSCoSiNE3DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a Pacific ROMS-CoSiNE 3D variable</td></tr><tr><td><a href="ROMSCoSiNE3D.InterpolateAtArcGISPoints.html?format=raw">ROMSCoSiNE3DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates Pacific ROMS-CoSiNE 3D variables at points.</td></tr><tr><td><a href="ROMSCoSiNE4D.CreateArcGISRasters.html?format=raw">ROMSCoSiNE4DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a Pacific ROMS-CoSiNE 4D variable.</td></tr><tr><td><a href="ROMSCoSiNE4D.CreateClimatologicalArcGISRasters.html?format=raw">ROMSCoSiNE4DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a Pacific ROMS-CoSiNE 4D variable</td></tr><tr><td><a href="ROMSCoSiNE4D.InterpolateAtArcGISPoints.html?format=raw">ROMSCoSiNE4DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates Pacific ROMS-CoSiNE 4D variables at points.</td></tr><tr><td><a href="RandomForestModel.FitToArcGISTable.html?format=raw">RandomForestModelFitToArcGISTable_GeoEco</a></td><td>Fits a random forest model to data in a table.</td></tr><tr><td><a href="RandomForestModel.PredictFromArcGISRasters.html?format=raw">RandomForestModelPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted random forest model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="RandomForestModel.PredictFromArcGISTable.html?format=raw">RandomForestModelPredictFromArcGISTable_GeoEco</a></td><td>Given a random forest model, this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="SIRFile.ExtractHeaderArcGISTable.html?format=raw">SIRFileExtractHeaderArcGISTable_GeoEco</a></td><td>Extracts the headers of SIR files in a table and saves them to text files.</td></tr><tr><td><a href="SIRFile.ExtractHeader.html?format=raw">SIRFileExtractHeader_GeoEco</a></td><td>Extracts the header of a SIR file.</td></tr><tr><td><a href="SIRFile.FindAndConvertToArcGISRasters.html?format=raw">SIRFileFindAndConvertToArcGISRasters_GeoEco</a></td><td>Finds SIR files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="SIRFile.FindAndConvertToArcInfoASCIIGrids.html?format=raw">SIRFileFindAndConvertToArcInfoASCIIGrids_GeoEco</a></td><td>Finds SIR files in a directory and converts them to text files in ArcInfo ASCII grid format.</td></tr><tr><td><a href="SIRFile.FindAndConvertToBinaryRasters.html?format=raw">SIRFileFindAndConvertToBinaryRasters_GeoEco</a></td><td>Finds SIR files in a directory and converts them to binary rasters.</td></tr><tr><td><a href="SIRFile.FindAndExtractHeaders.html?format=raw">SIRFileFindAndExtractHeaders_GeoEco</a></td><td>Finds SIR files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="SIRFile.ToArcGISRasterArcGISTable.html?format=raw">SIRFileToArcGISRasterArcGISTable_GeoEco</a></td><td>Converts each SIR file in a table to an ArcGIS raster.</td></tr><tr><td><a href="SIRFile.ToArcGISRaster.html?format=raw">SIRFileToArcGISRaster_GeoEco</a></td><td>Converts a SIR file to an ArcGIS raster.</td></tr><tr><td><a href="SIRFile.ToArcInfoASCIIGridArcGISTable.html?format=raw">SIRFileToArcInfoASCIIGridArcGISTable_GeoEco</a></td><td>Converts each SIR file in a table to a text file in ArcInfo ASCII grid format.</td></tr><tr><td><a href="SIRFile.ToArcInfoASCIIGrid.html?format=raw">SIRFileToArcInfoASCIIGrid_GeoEco</a></td><td>Converts a SIR file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="SIRFile.ToBinaryRasterArcGISTable.html?format=raw">SIRFileToBinaryRasterArcGISTable_GeoEco</a></td><td>Converts each SIR file in a table to a binary raster.</td></tr><tr><td><a href="SIRFile.ToBinaryRaster.html?format=raw">SIRFileToBinaryRaster_GeoEco</a></td><td>Converts a SIR file to a binary raster.</td></tr><tr><td><a href="Shapefile.CopyToDirectory.html?format=raw">ShapefileCopyToDirectory_GeoEco</a></td><td>Copies a shapefile to a directory.</td></tr><tr><td><a href="Shapefile.Copy.html?format=raw">ShapefileCopy_GeoEco</a></td><td>Copies a shapefile.</td></tr><tr><td><a href="SpatiaLiteDatabase.ExportToArcGISWorkspace.html?format=raw">SpatiaLiteDatabaseExportToArcGISWorkspace_GeoEco</a></td><td>Converts tables in a SpatiaLite database to ArcGIS tables, shapefiles, and feature classes.</td></tr><tr><td><a href="SpatiaLiteDatabase.ImportFromArcGISWorkspace.html?format=raw">SpatiaLiteDatabaseImportFromArcGISWorkspace_GeoEco</a></td><td>Converts ArcGIS tables, shapefiles, and feature classes to tables in a SpatiaLite database.</td></tr><tr><td><a href="SpeciesDiversity.CalculateDiversityIndexForArcGISPolygons.html?format=raw">SpeciesDiversityCalculateDiversityIndexForArcGISPolygons_GeoEco</a></td><td>Given polygons representing zones of interest and points representing species occurrence observations, calculates a species diversity index for each polygon.</td></tr><tr><td><a href="Table.ExecuteADOCommandForArcGISTable.html?format=raw">TableExecuteADOCommandForArcGISTable_GeoEco</a></td><td>Opens a Microsoft ActiveX Data Objects (ADO) connection to the database containing a table and executes a command.</td></tr><tr><td><a href="TreeModel.FitToArcGISTable.html?format=raw">TreeModelFitToArcGISTable_GeoEco</a></td><td>Fits a tree model to data in a table.</td></tr><tr><td><a href="TreeModel.PredictFromArcGISRasters.html?format=raw">TreeModelPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted tree model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="TreeModel.PredictFromArcGISTable.html?format=raw">TreeModelPredictFromArcGISTable_GeoEco</a></td><td>Given a fitted tree model, this tool predicts the response variable for each row of a table.</td></tr></table></p><h1><a id="Copyright">Copyright and License</a></h1><p>Except where otherwise noted, this document and the Marine Geospatial Ecology
+<html xmlns="http://www.w3.org/1999/xhtml"><head><title>Marine Geospatial Ecology Tools - ArcGIS Reference</title><link rel="stylesheet" type="text/css" href="../Documentation.css?format=raw" /><meta http-equiv="Content-Type" content="text/html; charset=UTF-8" /></head><body><p class="title1">Marine Geospatial Ecology Tools</p><p class="title2">ArcGIS Geoprocessing Reference</p><table class="docmetadata"><tr><td class="docmetadata1">MGET version:</td><td class="docmetadata2">0.8a43</td></tr><tr><td class="docmetadata1">Document version:</td><td class="docmetadata2">$Id: ArcGISReference.xsl 497 2010-04-01 18:41:19Z jjr8 $</td></tr><tr><td class="docmetadata1">Maintainer email:</td><td class="docmetadata2"><a href="mailto:jason.roberts@duke.edu">jason.roberts@duke.edu</a></td></tr><tr><td class="docmetadata1">MGET home page:</td><td class="docmetadata2"><a href="http://code.nicholas.duke.edu/projects/mget">http://code.nicholas.duke.edu/projects/mget</a></td></tr></table><h1><a id="Contents">Contents</a></h1><ul><li><a href="#IndexByLabel">Tool Index, By Label</a></li><li><a href="#IndexByName">Tool Index, By Name</a></li><li><a href="#Copyright">Copyright and License</a></li></ul><h1><a id="IndexByLabel">Tool Index, By Label</a></h1><p>In the table below, <i>Tool Label</i> is the name of the tool as it appears in the
+        ArcGIS toolbox.</p><p><table><tr><th>Tool Label</th><th>Description</th></tr><tr><td><a href="Periodicity.AnalyzeArcGISTable.html?format=raw">Analyze Temporal Periodocity in Table</a></td><td>Creates several plots that show the temporal periodicity of the records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">Analyze Temporal Periodocity of CPUE</a></td><td>Creates several plots that analyze the temporal periodicity of catch per unit effort (CPUE) calculated from fishing records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeCatchInArcGISTable.html?format=raw">Analyze Temporal Periodocity of Catch</a></td><td>Creates several plots that show the temporal periodicity of catch records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeEffortInArcGISTable.html?format=raw">Analyze Temporal Periodocity of Effort</a></td><td>Creates several plots that show the temporal periodicity of fishing effort records in a table.</td></tr><tr><td><a href="ArcGISPoints.AppendPointsToFeatureClass2.html?format=raw">Append Points</a></td><td>Appends points to an existing ArcGIS point feature class.</td></tr><tr><td><a href="ArcGISPolygons.AppendPolygonToFeatureClass2.html?format=raw">Append Polygon</a></td><td>Appends a polygon to an existing ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISPolygons.AppendRectangleToFeatureClass2.html?format=raw">Append Rectangle</a></td><td>Appends a rectangle to an existing ArcGIS polygon feature class.</td></tr><tr><td><a href="Field.CalculateArcGISField.html?format=raw">Calculate Field Using a Python Expression</a></td><td>Calculates the value of a table field using a Python expression.</td></tr><tr><td><a href="Field.CalculateArcGISFields.html?format=raw">Calculate Fields Using Python Expressions</a></td><td>Calculates values for one or more fields of a table using Python expressions.</td></tr><tr><td><a href="Moon.CalculateMoonPhaseForArcGISTable.html?format=raw">Calculate Moon Phase For Dates in Field</a></td><td>Given a table with a date field, calculates the phase of the moon and writes it to another field.</td></tr><tr><td><a href="SpeciesDiversity.CalculateDiversityIndexForArcGISPolygons.html?format=raw">Calculate Species Diversity Index for Polygons</a></td><td>Given polygons representing zones of interest and points representing species occurrence observations, calculates a species diversity index for each polygon.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInArcGISRaster.html?format=raw">Cayula-Cornillon Fronts in ArcGIS Raster</a></td><td>Finds fronts in an ArcGIS raster using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInArcGISRastersArcGISTable.html?format=raw">Cayula-Cornillon Fronts in ArcGIS Rasters Listed in Table</a></td><td>Finds fronts in ArcGIS rasters listed in a table using the Cayula and Cornillon (1992) single-image edge detection algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInBinaryRaster.html?format=raw">Cayula-Cornillon Fronts in Binary Raster</a></td><td>Finds fronts in a binary raster using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsArcGISRaster.html?format=raw">Cayula-Cornillon Fronts in CoastWatch Image as ArcGIS Raster</a></td><td>Finds fronts in a CoastWatch POES AVHRR image using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them to an ArcGIS raster.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsBinaryRaster.html?format=raw">Cayula-Cornillon Fronts in CoastWatch Image as Binary Raster</a></td><td>Finds fronts in a CoastWatch POES AVHRR image using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them to a binary raster.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsArcGISRastersArcGISTable.html?format=raw">Cayula-Cornillon Fronts in CoastWatch Images Listed in Table as ArcGIS Rasters</a></td><td>Finds fronts in CoastWatch POES AVHRR images listed in a table using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them as ArcGIS rasters.</td></tr><tr><td><a href="ESRLClimateIndices.ClassifyONIEpisodesInTimeSeriesArcGISTable.html?format=raw">Classify Oceanic Nino Index (ONI) Episodes in Table</a></td><td>Given a time series table of monthly Oceanic Nino Index (ONI) numerical values, classifies each month as part of a normal, El Nino (warm), or La Nina (cold) episode.</td></tr><tr><td><a href="RExploratoryPlots.ClevelandPlotForArcGISTable.html?format=raw">Cleveland Plot for Table</a></td><td>Creates a multi-panel Cleveland dotplot for a table.</td></tr><tr><td><a href="CoastWatchAVHRR.ToArcGISRaster.html?format=raw">CoastWatch Image to ArcGIS Raster</a></td><td>Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to an ArcGIS raster.</td></tr><tr><td><a href="CoastWatchAVHRR.ToBinaryRaster.html?format=raw">CoastWatch Image to Binary Raster</a></td><td>Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to a binary raster.</td></tr><tr><td><a href="CoastWatchAVHRR.ToArcGISRasterArcGISTable.html?format=raw">CoastWatch Images Listed in Table To ArcGIS Rasters</a></td><td>Creates an ArcGIS raster from each CoastWatch POES AVHRR image listed in a table of images, where one field specifies the file path containing the image and another specifies the variable that represents the image.</td></tr><tr><td><a href="CoastWatchAVHRR.ToBinaryRasterArcGISTable.html?format=raw">CoastWatch Images Listed in Table To Binary Rasters</a></td><td>Creates a binary raster from each CoastWatch POES AVHRR image listed in a table of images, where one field specifies the file path containing the image and another specifies the variable that represents the image.</td></tr><tr><td><a href="CoastWatchAVHRR.ToCoastWatchHDF.html?format=raw">CoastWatch Images to HDF</a></td><td>Creates a CoastWatch HDF by importing images from a list of CoastWatch POES AVHRR CWFs or HDFs.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToArcGISRaster.html?format=raw">Convert 2D Variable in NetCDF to ArcGIS Raster</a></td><td>Converts a two-dimensional variable in a netCDF file to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToArcInfoASCIIGrid.html?format=raw">Convert 2D Variable in NetCDF to ArcInfo ASCII Grid</a></td><td>Converts a two-dimensional variable in a netCDF file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToBinaryRaster.html?format=raw">Convert 2D Variable in NetCDF to Binary Raster</a></td><td>Converts a two-dimensional variable in a netCDF file to a binary raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToArcGISRasters.html?format=raw">Convert 2D Variable in NetCDFs Listed in Table To ArcGIS Rasters</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToArcInfoASCIIGrids.html?format=raw">Convert 2D Variable in NetCDFs Listed in Table To ArcInfo ASCII Grids</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToBinaryRasters.html?format=raw">Convert 2D Variable in NetCDFs Listed in Table To Binary Rasters</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to a binary raster.</td></tr><tr><td><a href="SpatiaLiteDatabase.ImportFromArcGISWorkspace.html?format=raw">Convert ArcGIS Geodatasets to SpatiaLite Tables</a></td><td>Converts ArcGIS tables, shapefiles, and feature classes to tables in a SpatiaLite database.</td></tr><tr><td><a href="ArcGISRaster.ToLines.html?format=raw">Convert ArcGIS Raster to Lines</a></td><td>Converts an ArcGIS raster to a feature class of lines that connect adjacent foreground raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPoints.html?format=raw">Convert ArcGIS Raster to Points</a></td><td>Converts an ArcGIS raster to a feature class of points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonOutlines.html?format=raw">Convert ArcGIS Raster to Polygon Outlines</a></td><td>Converts an ArcGIS raster to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygons.html?format=raw">Convert ArcGIS Raster to Polygons</a></td><td>Converts an ArcGIS raster to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToLinesArcGISTable.html?format=raw">Convert ArcGIS Rasters Listed in Table to Lines</a></td><td>Converts the ArcGIS rasters listed in a table to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPointsArcGISTable.html?format=raw">Convert ArcGIS Rasters Listed in Table to Points</a></td><td>Converts the ArcGIS rasters listed in a table to points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonOutlinesArcGISTable.html?format=raw">Convert ArcGIS Rasters Listed in Table to Polygon Outlines</a></td><td>Converts the ArcGIS rasters listed in a table to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonsArcGISTable.html?format=raw">Convert ArcGIS Rasters Listed in Table to Polygons</a></td><td>Converts the ArcGIS rasters listed in a table to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcInfoASCIIGrid.ToArcGISRaster.html?format=raw">Convert ArcInfo ASCII Grid to ArcGIS Raster</a></td><td>Converts a text file in ArcInfo ASCII Grid format to an ArcGIS raster.</td></tr><tr><td><a href="ArcInfoASCIIGrid.ToArcGISRasterArcGISTable.html?format=raw">Convert ArcInfo ASCII Grids Listed in Table To ArcGIS Rasters</a></td><td>Converts each ArcInfo ASCII Grid text file in a table to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcGISRaster.html?format=raw">Convert Binary Raster to ArcGIS Raster</a></td><td>Converts a two-dimensional binary raster to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcInfoASCIIGrid.html?format=raw">Convert Binary Raster to ArcInfo ASCII Grid</a></td><td>Converts a two-dimensional binary raster to a text file in ArcGIS ASCII Grid format.</td></tr><tr><td><a href="BinaryRaster.ToArcGISRasterArcGISTable.html?format=raw">Convert Binary Rasters Listed in Table To ArcGIS Rasters</a></td><td>Converts each two-dimensional binary raster in a table to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcInfoASCIIGridArcGISTable.html?format=raw">Convert Binary Rasters Listed in Table To ArcInfo ASCII Grids</a></td><td>Converts each two-dimensional binary raster in a table to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="CoastWatchAVHRR.ToCoastWatchHDFArcGISTable.html?format=raw">Convert CoastWatch Images Listed in Table to HDFs</a></td><td>Creates CoastWatch HDFs in a specified output directory by importing images from the CoastWatch POES AVHRR CWFs or HDFs listed in a table.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ConvertToSpatiaLite.html?format=raw">Convert Mesoscale Eddies NetCDF to SpatiaLite Database</a></td><td>Converts the Chelton et al. (2011) mesoscale eddy database netCDF file to a SpatiaLite database.</td></tr><tr><td><a href="HDF.SDSToArcGISRaster.html?format=raw">Convert SDS in HDF to ArcGIS Raster</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to an ArcGIS raster.</td></tr><tr><td><a href="HDF.SDSToArcInfoASCIIGrid.html?format=raw">Convert SDS in HDF to ArcInfo ASCII Grid</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.SDSToBinaryRaster.html?format=raw">Convert SDS in HDF to Binary Raster</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to a binary raster.</td></tr><tr><td><a href="HDF.ToArcGISRasterArcGISTable.html?format=raw">Convert SDS in HDFs Listed in Table To ArcGIS Rasters</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to an ArcGIS raster.</td></tr><tr><td><a href="HDF.ToArcInfoASCIIGridArcGISTable.html?format=raw">Convert SDS in HDFs Listed in Table To ArcInfo ASCII Grids</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to a text file in an ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.ToBinaryRasterArcGISTable.html?format=raw">Convert SDS in HDFs Listed in Table To Binary Rasters</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to a binary raster.</td></tr><tr><td><a href="SIRFile.ToArcGISRaster.html?format=raw">Convert SIR File to ArcGIS Raster</a></td><td>Converts a SIR file to an ArcGIS raster.</td></tr><tr><td><a href="SIRFile.ToArcInfoASCIIGrid.html?format=raw">Convert SIR File to ArcInfo ASCII Grid</a></td><td>Converts a SIR file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="SIRFile.ToBinaryRaster.html?format=raw">Convert SIR File to Binary Raster</a></td><td>Converts a SIR file to a binary raster.</td></tr><tr><td><a href="SIRFile.ToArcGISRasterArcGISTable.html?format=raw">Convert SIR Files Listed in Table To ArcGIS Rasters</a></td><td>Converts each SIR file in a table to an ArcGIS raster.</td></tr><tr><td><a href="SIRFile.ToArcInfoASCIIGridArcGISTable.html?format=raw">Convert SIR Files Listed in Table To ArcInfo ASCII Grids</a></td><td>Converts each SIR file in a table to a text file in ArcInfo ASCII grid format.</td></tr><tr><td><a href="SIRFile.ToBinaryRasterArcGISTable.html?format=raw">Convert SIR Files Listed in Table To Binary Rasters</a></td><td>Converts each SIR file in a table to a binary raster.</td></tr><tr><td><a href="SpatiaLiteDatabase.ExportToArcGISWorkspace.html?format=raw">Convert SpatiaLite Tables to ArcGIS Geodatasets</a></td><td>Converts tables in a SpatiaLite database to ArcGIS tables, shapefiles, and feature classes.</td></tr><tr><td><a href="CoastWatchAVHRR.CopyNavigationOffsets.html?format=raw">Copy CoastWatch Navigation Offsets</a></td><td>Copies the navigation offsets from one variable in a CoastWatch POES AVHRR CWF or HDF file to one or more variables in another file.</td></tr><tr><td><a href="CoastWatchAVHRR.CopyNavigationOffsetsArcGISTable.html?format=raw">Copy CoastWatch Navigation Offsets for Files Listed in Table</a></td><td>Copies navigation offsets from a source variable to destination variables in CoastWatch POES AVHRR CWF or HDF files listed in a table.</td></tr><tr><td><a href="Directory.CopyArcGISTable.html?format=raw">Copy Directories Listed in Table</a></td><td>Copies the directories listed in a table.</td></tr><tr><td><a href="Directory.Copy.html?format=raw">Copy Directory</a></td><td>Copies a directory, including its subdirectories and files.</td></tr><tr><td><a href="File.Copy.html?format=raw">Copy File</a></td><td>Copies a file.</td></tr><tr><td><a href="File.CopyArcGISTable.html?format=raw">Copy Files Listed in Table</a></td><td>Copies the files listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Copy.html?format=raw">Copy Raster</a></td><td>Copies an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.CopyArcGISTable.html?format=raw">Copy Rasters Listed in Table</a></td><td>Copies the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="Shapefile.Copy.html?format=raw">Copy Shapefile</a></td><td>Copies a shapefile.</td></tr><tr><td><a href="Shapefile.CopyToDirectory.html?format=raw">Copy Shapefile To Directory</a></td><td>Copies a shapefile to a directory.</td></tr><tr><td><a href="ArcGISPolygons.CreateBoundingBoxForArcGISGeoDatasets.html?format=raw">Create Bounding Box for Geodatasets</a></td><td>Creates a new ArcGIS polygon feature class and a bounding box (a minimum bounding rectangle) within it that encompasses the extents of one or more ArcGIS geodatasets.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for AVHRR Pathfinder V5 SST</a></td><td>Creates climatological rasters from AVHRR Pathfinder Version 5 SST images published by NOAA NODC.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Aviso Geostrophic Currents Product</a></td><td>Creates climatological rasters for an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedSSH.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Aviso SSH Product</a></td><td>Creates climatological rasters for an Aviso gridded sea surface height product.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Aviso Significant Wave Height Product</a></td><td>Creates climatological rasters for an Aviso gridded significant wave height product.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Aviso Wind Speed Modulus Product</a></td><td>Creates climatological rasters for an Aviso gridded wind speed modulus product.</td></tr><tr><td><a href="GHRSSTLevel4.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for GHRSST L4 SST</a></td><td>Creates climatological rasters for a GHRSST L4 product hosted by NASA JPL PO.DAAC.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for HYCOM GLBa0.08 Equatorial 3D Variable</a></td><td>Creates climatological rasters for a 3D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for HYCOM GLBa0.08 Equatorial 4D Variable</a></td><td>Creates climatological rasters for a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset</td></tr><tr><td><a href="HYCOMGOMl0043D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for HYCOM GOMl0.04 3D Variable</a></td><td>Creates climatological rasters for a HYCOM GOMl0.04 3D variable</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for HYCOM GOMl0.04 4D Variable</a></td><td>Creates climatological rasters for a HYCOM GOMl0.04 4D variable</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for NASA OceanColor L3 SMI Product</a></td><td>Creates climatological rasters for a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for OSCAR Currents</a></td><td>Creates climatological rasters for NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for PO.DAAC MODIS L3 SST</a></td><td>Creates climatological rasters from MODIS Level 3 SST images published by NASA JPL PO.DAAC.</td></tr><tr><td><a href="ROMSCoSiNE3D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Pacific ROMS-CoSiNE 3D Variable</a></td><td>Creates climatological rasters for a Pacific ROMS-CoSiNE 3D variable</td></tr><tr><td><a href="ROMSCoSiNE4D.CreateClimatologicalArcGISRasters.html?format=raw">Create Climatological Rasters for Pacific ROMS-CoSiNE 4D Variable</a></td><td>Creates climatological rasters for a Pacific ROMS-CoSiNE 4D variable</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMaskAsArcGISRaster.html?format=raw">Create CoastWatch Mask as ArcGIS Raster</a></td><td>Creates a mask, in ArcGIS raster format, for a CoastWatch POES AVHRR image.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMaskAsBinaryRaster.html?format=raw">Create CoastWatch Mask as Binary Raster</a></td><td>Creates a mask, in binary raster format, for a CoastWatch POES AVHRR image.</td></tr><tr><td><a href="CoralReefConnectivity.CreateSimulationFromArcGISRasters.html?format=raw">Create Coral Reef Connectivity Simulation From ArcGIS Rasters</a></td><td>Creates a coral reef connectivity simulation and initializes it with reef data in ArcGIS rasters.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateCurrentVectorsAsArcGISFeatureClasses.html?format=raw">Create Current Vectors for HYCOM GLBa0.08 Equatorial Region</a></td><td>Creates line feature classes representing the current vectors for the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateCurrentVectorsAsArcGISFeatureClasses.html?format=raw">Create Current Vectors for HYCOM GOMl0.04</a></td><td>Creates line feature classes representing the vectors of HYCOM GOMl0.04 currents.</td></tr><tr><td><a href="Directory.Create.html?format=raw">Create Directory</a></td><td>Creates a directory, including any parent directories that are missing.</td></tr><tr><td><a href="FEET.CreateEnvelopes.html?format=raw">Create Fishery Effort Envelopes</a></td><td>Models the spatial distribution of fishing effort for fisheries for which no spatially-explicit effort data is available.</td></tr><tr><td><a href="ArcGISFishnets.CreateFishnet.html?format=raw">Create Fishnet</a></td><td>Creates a grid of rectangular polygons.</td></tr><tr><td><a href="ArcGISFishnets.CreateFishnetForPoints.html?format=raw">Create Fishnet for Points</a></td><td>Creates a grid of rectangular cells that overlap the input points and optionally calculates summary statistics for the points that intersect each cell.</td></tr><tr><td><a href="ArcGISLines.FromVectorComponentRasters.html?format=raw">Create Lines From Vector Component Rasters</a></td><td>Given rasters representing the x and y components of a vector field, such as the u and v rasters for ocean currents, this tool creates a feature class of lines representing the vectors, similar to a "quiver plot".</td></tr><tr><td><a href="ArcGISLines.FromVectorComponentRastersInArcGISTable.html?format=raw">Create Lines From Vector Component Rasters Listed in Table</a></td><td>Given a table of rasters representing the x and y components of vector fields, such as the u and v rasters for ocean currents, this tool creates feature classes of lines representing the vectors, similar to a "quiver plot".</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMasksAsArcGISRastersArcGISTable.html?format=raw">Create Masks as ArcGIS Rasters for CoastWatch Images Listed in Table</a></td><td>Creates masks, in ArcGIS raster format, for CoastWatch POES AVHRR images listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMasksAsBinaryRastersArcGISTable.html?format=raw">Create Masks as Binary Rasters for CoastWatch Images Listed in Table</a></td><td>Creates masks, in binary raster format, for CoastWatch POES AVHRR images listed in a table.</td></tr><tr><td><a href="ArcGISPoints.CreateFeatureClassWithPoints2.html?format=raw">Create Points</a></td><td>Creates points in a new ArcGIS point feature class.</td></tr><tr><td><a href="ArcGISPoints.CreatePointsAlongLines.html?format=raw">Create Points Along Lines</a></td><td>Creates points along lines at a specified interval.</td></tr><tr><td><a href="ArcGISPolygons.CreateFeatureClassWithPolygon2.html?format=raw">Create Polygon</a></td><td>Creates a polygon in a new ArcGIS polygon feature class.</td></tr><tr><td><a href="CoRTADv32D.CreateArcGISRaster.html?format=raw">Create Raster for CoRTAD 2D Variable</a></td><td>Creates a raster for a CoRTAD 2D variable.</td></tr><tr><td><a href="ROMSCoSiNE2D.CreateArcGISRaster.html?format=raw">Create Raster for Pacific ROMS-CoSiNE 2D Variable</a></td><td>Creates a raster for a Pacific ROMS-CoSiNE 2D variable.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateArcGISRasters.html?format=raw">Create Rasters for AVHRR Pathfinder V5 SST</a></td><td>Creates rasters for AVHRR Pathfinder Version 5 SST images published by NOAA NODC.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateArcGISRasters.html?format=raw">Create Rasters for Aviso Geostrophic Currents Product</a></td><td>Creates rasters for an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedSSH.CreateArcGISRasters.html?format=raw">Create Rasters for Aviso SSH Product</a></td><td>Creates rasters for an Aviso gridded sea surface height product.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.CreateArcGISRasters.html?format=raw">Create Rasters for Aviso Significant Wave Height Product</a></td><td>Creates rasters for an Aviso gridded significant wave height product.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.CreateArcGISRasters.html?format=raw">Create Rasters for Aviso Wind Speed Modulus Product</a></td><td>Creates rasters for an Aviso gridded wind speed modulus product.</td></tr><tr><td><a href="CoRTADv33D.CreateArcGISRasters.html?format=raw">Create Rasters for CoRTAD 3D Variable</a></td><td>Creates rasters a CoRTAD 3D variable.</td></tr><tr><td><a href="GHRSSTLevel4.CreateArcGISRasters.html?format=raw">Create Rasters for GHRSST L4 SST</a></td><td>Creates rasters for a GHRSST L4 product hosted by NASA JPL PO.DAAC.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.CreateArcGISRasters.html?format=raw">Create Rasters for HYCOM GLBa0.08 Equatorial 3D Variable</a></td><td>Creates rasters for a 3D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateArcGISRasters.html?format=raw">Create Rasters for HYCOM GLBa0.08 Equatorial 4D Variable</a></td><td>Creates rasters for a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGOMl0043D.CreateArcGISRasters.html?format=raw">Create Rasters for HYCOM GOMl0.04 3D Variable</a></td><td>Creates rasters for a HYCOM GOMl0.04 3D variable.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateArcGISRasters.html?format=raw">Create Rasters for HYCOM GOMl0.04 4D Variable</a></td><td>Creates rasters for a HYCOM GOMl0.04 4D variable.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.CreateArcGISRasters.html?format=raw">Create Rasters for NASA OceanColor L3 SMI Product</a></td><td>Creates rasters for a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateArcGISRasters.html?format=raw">Create Rasters for OSCAR Currents</a></td><td>Creates rasters for NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateArcGISRasters.html?format=raw">Create Rasters for PO.DAAC MODIS L3 SST</a></td><td>Creates rasters for MODIS Level 3 SST images published by NASA JPL PO.DAAC.</td></tr><tr><td><a href="ROMSCoSiNE3D.CreateArcGISRasters.html?format=raw">Create Rasters for Pacific ROMS-CoSiNE 3D Variable</a></td><td>Creates rasters for a Pacific ROMS-CoSiNE 3D variable.</td></tr><tr><td><a href="ROMSCoSiNE4D.CreateArcGISRasters.html?format=raw">Create Rasters for Pacific ROMS-CoSiNE 4D Variable</a></td><td>Creates rasters for a Pacific ROMS-CoSiNE 4D variable.</td></tr><tr><td><a href="ArcGISPolygons.CreateFeatureClassWithRectangle2.html?format=raw">Create Rectangle</a></td><td>Creates a rectangle in a new ArcGIS polygon feature class.</td></tr><tr><td><a href="Directory.CreateSubdirectory.html?format=raw">Create Subdirectory</a></td><td>Creates a subdirectory within a parent directory.</td></tr><tr><td><a href="ESRLClimateIndices.UrlToArcGISTable.html?format=raw">Create Table from ESRL Climate Index Time Series at URL</a></td><td>Creates and populates a table of climate index values parsed from NOAA ESRL climate index time series data downloaded from a URL.</td></tr><tr><td><a href="ESRLClimateIndices.UrlsToArcGISTable.html?format=raw">Create Table from ESRL Climate Index Time Series at URLs</a></td><td>Creates and populates a table of climate index values parsed from NOAA ESRL climate index time series data downloaded from a list of URLs.</td></tr><tr><td><a href="ESRLClimateIndices.FileToArcGISTable.html?format=raw">Create Table from ESRL Climate Index Time Series in Text File</a></td><td>Creates and populates a table of climate index values parsed from a text file in NOAA ESRL time series format.</td></tr><tr><td><a href="ESRLClimateIndices.FilesToArcGISTable.html?format=raw">Create Table from ESRL Climate Index Time Series in Text Files</a></td><td>Creates and populates a table of climate index values parsed from a list of text files, where each file contains the data for a single climate index in NOAA ESRL time series format.</td></tr><tr><td><a href="Directory.CreateTemporaryDirectory.html?format=raw">Create Temporary Directory</a></td><td>Creates a directory suitable for holding temporary files.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateVectorsAsArcGISFeatureClasses.html?format=raw">Create Vectors for Aviso Geostrophic Currents Product</a></td><td>Creates line feature classes representing the current vectors of an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateVectorsAsArcGISFeatureClasses.html?format=raw">Create Vectors for OSCAR Currents</a></td><td>Creates line feature classes representing the vectors of NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="ArcGISRaster.CreateXRaster.html?format=raw">Create X Coordinate Raster</a></td><td>Creates an ArcGIS raster where the value of each cell is the X coordinate of the cell.</td></tr><tr><td><a href="ArcGISRaster.CreateYRaster.html?format=raw">Create Y Coordinate Raster</a></td><td>Creates an ArcGIS raster where the value of each cell is the Y coordinate of the cell.</td></tr><tr><td><a href="File.Decompress.html?format=raw">Decompress File</a></td><td>Decompresses a file into a directory.</td></tr><tr><td><a href="Directory.DeleteArcGISTable.html?format=raw">Delete Directories Listed in Table</a></td><td>Deletes the directories listed in a table.</td></tr><tr><td><a href="Directory.Delete.html?format=raw">Delete Directory</a></td><td>Deletes a directory.</td></tr><tr><td><a href="File.Delete.html?format=raw">Delete File</a></td><td>Deletes a file.</td></tr><tr><td><a href="File.DeleteArcGISTable.html?format=raw">Delete Files Listed in Table</a></td><td>Deletes the files listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Delete.html?format=raw">Delete Raster</a></td><td>Deletes an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.DeleteArcGISTable.html?format=raw">Delete Rasters Listed in Table</a></td><td>Deletes the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="RExploratoryPlots.DensityHistogramForArcGISField.html?format=raw">Density Histogram for Field</a></td><td>Creates a density histogram for a field of a table.</td></tr><tr><td><a href="RExploratoryPlots.DensityHistogramForArcGISPointsCoordinates.html?format=raw">Density Histogram for Point Coordinate</a></td><td>Creates a density histogram for one of the coordinates of a point feature class or layer.</td></tr><tr><td><a href="R.Evaluate.html?format=raw">Evaluate R Statements</a></td><td>Evalutes one or more R statements using the R interpreter and returns the result of the last statement.</td></tr><tr><td><a href="R.EvaluateFile.html?format=raw">Evaluate R Statements in Text File</a></td><td>Evalutes the R statements in a text file using the R interpreter and returns the result of the last statement.</td></tr><tr><td><a href="Table.ExecuteADOCommandForArcGISTable.html?format=raw">Execute Database Command for Table</a></td><td>Opens a Microsoft ActiveX Data Objects (ADO) connection to the database containing a table and executes a command.</td></tr><tr><td><a href="ADODatabaseConnection.ConnectAndExecuteCommand.html?format=raw">Execute Database Command on ADO Connection</a></td><td>Opens a Microsoft ActiveX Data Objects (ADO) connection to a database and executes a command.</td></tr><tr><td><a href="ChildProcess.ExecuteProgram.html?format=raw">Execute Program</a></td><td>Executes the specified program and captures its output.</td></tr><tr><td><a href="ArcGISRaster.ExtractByMaskArcGISTable.html?format=raw">Extract By Mask for ArcGIS Rasters Listed in Table</a></td><td>For each ArcGIS raster in a table, extracts the cells that correspond to the areas defined by a mask.</td></tr><tr><td><a href="HDF.ExtractHeader.html?format=raw">Extract HDF Header</a></td><td>Extracts the header of an HDF file and saves it to a text file.</td></tr><tr><td><a href="HDF.ExtractHeaderArcGISTable.html?format=raw">Extract Headers of HDFs Listed in Table</a></td><td>Extracts the headers of HDF files in a table and saves them to text files.</td></tr><tr><td><a href="NetCDF.ExtractHeaderArcGISTable.html?format=raw">Extract Headers of NetCDFs Listed in Table</a></td><td>Extracts the headers of netCDF files in a table and saves them to text files.</td></tr><tr><td><a href="SIRFile.ExtractHeaderArcGISTable.html?format=raw">Extract Headers of SIR Files Listed in Table</a></td><td>Extracts the headers of SIR files in a table and saves them to text files.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ExtractArcGISPointsFromSpatiaLite.html?format=raw">Extract Mesoscale Eddy Centroids From SpatiaLite Database</a></td><td>Extracts eddy centroid points from the Chelton et al. (2011) mesoscale eddy database in SpatiaLite format.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ExtractArcGISLinesFromSpatiaLite.html?format=raw">Extract Mesoscale Eddy Tracklines From SpatiaLite Database</a></td><td>Extracts eddy tracklines from the Chelton et al. (2011) mesoscale eddy database in SpatiaLite format.</td></tr><tr><td><a href="NetCDF.ExtractHeader.html?format=raw">Extract NetCDF Header</a></td><td>Extracts the header of a netCDF file and saves it to a text file.</td></tr><tr><td><a href="SIRFile.ExtractHeader.html?format=raw">Extract SIR File Header</a></td><td>Extracts the header of a SIR file.</td></tr><tr><td><a href="File.IsDecompressible.html?format=raw">File Is Decompressible</a></td><td>Returns True if the specified file is in a format that can be decompressed.</td></tr><tr><td><a href="ArcGISRaster.FindAndExtractByMask.html?format=raw">Find ArcGIS Rasters and Extract By Mask</a></td><td>Finds rasters in an ArcGIS workspace and extracts the cells that correspond to the areas defined by a mask.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.FindArcGISRastersAndDetectEdges.html?format=raw">Find ArcGIS Rasters and Find Cayula-Cornillon Fronts</a></td><td>Finds ArcGIS rasters in a workspace and finds fronts within them using the Cayula and Cornillon (1992) single-image edge detection algorithm.</td></tr><tr><td><a href="Interpolator.FindAndInpaintArcGISRasters.html?format=raw">Find ArcGIS Rasters and Interpolate No Data Cells</a></td><td>Finds rasters in an ArcGIS workspace and interpolates values for the No Data cells.</td></tr><tr><td><a href="ArcGISRaster.FindAndProjectRastersToTemplate.html?format=raw">Find ArcGIS Rasters and Project to Template</a></td><td>Finds rasters in an ArcGIS workspace and projects them to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.FindAndProjectClipAndOrExecuteMapAlgebra.html?format=raw">Find ArcGIS Rasters and Project, Clip, and/or Execute Map Algebra</a></td><td>Finds rasters in an ArcGIS workspace and projects, clips, and/or perfoms map algebra on them. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcInfoASCIIGrid.FindAndConvertToArcGISRaster.html?format=raw">Find ArcInfo ASCII Grids and Convert To ArcGIS Rasters</a></td><td>Finds ArcInfo ASCII Grid text files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="BinaryRaster.FindAndConvertToArcGISRaster.html?format=raw">Find Binary Rasters and Convert To ArcGIS Rasters</a></td><td>Finds two-dimensional binary rasters in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="BinaryRaster.FindAndConvertToArcInfoASCIIGrid.html?format=raw">Find Binary Rasters and Convert To ArcInfo ASCII Grids</a></td><td>Finds two-dimensional binary rasters in a directory and converts them to text files in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="BinaryRaster.FindAndSwapBytes.html?format=raw">Find Binary Rasters and Swap Bytes</a></td><td>Finds and reverses the byte order of binary rasters in a directory (i.e. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in AVHRR Pathfinder V5 SST</a></td><td>Creates rasters indicating the positions of fronts in AVHRR Pathfinder Version 5 SST images published by NOAA NODC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="GHRSSTLevel4.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in GHRSST L4 SST</a></td><td>Creates rasters indicating the positions of fronts in GHRSST L4 SST images hosted by NASA JPL PO.DAAC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in HYCOM GLBa0.08 Equatorial 4D Variable</a></td><td>Creates rasters indicating the positions of fronts in the 2D slices of a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in HYCOM GOMl0.04 4D Variable</a></td><td>Creates rasters indicating the positions of fronts in the 2D slices of a HYCOM GOMl0.04 4D variable using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">Find Cayula-Cornillon Fronts in PO.DAAC MODIS L3 SST</a></td><td>Creates rasters indicating the positions of fronts in MODIS Level 3 SST images published by NASA JPL PO.DAAC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFilesAndCreateArcGISTable.html?format=raw">Find CoastWatch Files</a></td><td>Finds CoastWatch POES AVHRR files within a directory and creates a table that lists them.</td></tr><tr><td><a href="CoastWatchAVHRR.FindImagesInFilesAndCreateArcGISTable.html?format=raw">Find CoastWatch Images In Files</a></td><td>Finds CoastWatch POES AVHRR files within a directory and creates a table that lists the images within them.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToArcGISRasters.html?format=raw">Find CoastWatch Images and Convert To ArcGIS Rasters</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToBinaryRasters.html?format=raw">Find CoastWatch Images and Convert To Binary Rasters</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and converts them to binary rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToCoastWatchHDFs.html?format=raw">Find CoastWatch Images and Convert to HDFs</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and imports them into CoastWatch HDFs.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndCreateMasksAsArcGISRasters.html?format=raw">Find CoastWatch Images and Create Masks as ArcGIS Rasters</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in ArcGIS raster format.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndCreateMasksAsBinaryRasters.html?format=raw">Find CoastWatch Images and Create Masks as Binary Rasters</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in binary raster format.</td></tr><tr><td><a href="CoastWatchAVHRR.FindCoastWatchFilesAndFindFrontsAsArcGISRasters.html?format=raw">Find CoastWatch Images and Find Cayula-Cornillon Fronts as ArcGIS Rasters</a></td><td>Uses the Cayula and Cornillon (1992) single-image edge detection algorithm to find fronts in the CoastWatch POES AVHRR images found in a directory, and outputs the fronts as ArcGIS rasters.</td></tr><tr><td><a href="Directory.FindAndCreateArcGISTable.html?format=raw">Find Directories</a></td><td>Finds subdirectories within a directory and creates a table that lists them.</td></tr><tr><td><a href="File.FindAndCreateArcGISTable.html?format=raw">Find Files</a></td><td>Finds files within a directory and creates a table that lists them.</td></tr><tr><td><a href="HDF.FindAndConvertToArcGISRasters.html?format=raw">Find HDFs and Convert SDS To ArcGIS Rasters</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to an ArcGIS raster.</td></tr><tr><td><a href="HDF.FindAndConvertToArcInfoASCIIGrids.html?format=raw">Find HDFs and Convert SDS To ArcInfo ASCII Grids</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.FindAndConvertToBinaryRasters.html?format=raw">Find HDFs and Convert SDS To Binary Rasters</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to a binary raster.</td></tr><tr><td><a href="HDF.FindAndExtractHeaders.html?format=raw">Find HDFs and Extract Headers</a></td><td>Finds HDF files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="ArcGISPoints.FindNearestFeatures.html?format=raw">Find Nearest Features</a></td><td>For each point, finds the nearest feature and writes its ID, distance, angle, and/or values of specified fields to fields of the point.</td></tr><tr><td><a href="ArcGISPoints.FindNearestFeaturesListedInField.html?format=raw">Find Nearest Features Listed in Field</a></td><td>For each point, using the feature class or layer listed in a field, finds the nearest feature and writes its ID, distance, angle, and/or values of specified fields to fields of the point. Use this tool when you have a single point feature class but need to find distances to different near feature classes or layers for different points.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToArcGISRasters.html?format=raw">Find NetCDFs and Convert 2D Variable to ArcGIS Rasters</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToArcInfoASCIIGrids.html?format=raw">Find NetCDFs and Convert 2D Variable to ArcInfo ASCII Grids</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToBinaryRasters.html?format=raw">Find NetCDFs and Convert 2D Variable to Binary Rasters</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to a binary raster.</td></tr><tr><td><a href="NetCDF.FindAndExtractHeaders.html?format=raw">Find NetCDFs and Extract Headers</a></td><td>Finds netCDF files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="AvisoGriddedSSH.FindOkuboWeissEddies.html?format=raw">Find Okubo-Weiss Eddies in Aviso SSH Product</a></td><td>Creates rasters showing the cores of geostrophic eddies detected in an Aviso gridded sea surface height product using the Okubo-Weiss algorithm.</td></tr><tr><td><a href="ArcGISRaster.FindAndCreateArcGISTable.html?format=raw">Find Rasters</a></td><td>Finds rasters within an ArcGIS workspace and creates a table that lists them.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.FindRastersAndExecuteSingleOutputMapAlgebra.html?format=raw">Find Rasters and Execute Single Output Map Algebra</a></td><td>Finds rasters in a workspace and executes a map algebra expression on them.</td></tr><tr><td><a href="SIRFile.FindAndConvertToArcGISRasters.html?format=raw">Find SIR Files and Convert To ArcGIS Rasters</a></td><td>Finds SIR files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="SIRFile.FindAndConvertToArcInfoASCIIGrids.html?format=raw">Find SIR Files and Convert To ArcInfo ASCII Grids</a></td><td>Finds SIR files in a directory and converts them to text files in ArcInfo ASCII grid format.</td></tr><tr><td><a href="SIRFile.FindAndConvertToBinaryRasters.html?format=raw">Find SIR Files and Convert To Binary Rasters</a></td><td>Finds SIR files in a directory and converts them to binary rasters.</td></tr><tr><td><a href="SIRFile.FindAndExtractHeaders.html?format=raw">Find SIR Files and Extract Headers</a></td><td>Finds SIR files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToLines.html?format=raw">Find and Convert ArcGIS Rasters to Lines</a></td><td>Finds rasters in an ArcGIS workspace and converts them to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPoints.html?format=raw">Find and Convert ArcGIS Rasters to Points</a></td><td>Finds rasters in an ArcGIS workspace and converts them to points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPolygonOutlines.html?format=raw">Find and Convert ArcGIS Rasters to Polygon Outlines</a></td><td>Finds rasters in an ArcGIS workspace and converts them to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPolygons.html?format=raw">Find and Convert ArcGIS Rasters to Polygons</a></td><td>Finds rasters in an ArcGIS workspace and converts them to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="Directory.FindAndCopy.html?format=raw">Find and Copy Directories</a></td><td>Finds and copies directories in a directory.</td></tr><tr><td><a href="File.FindAndCopy.html?format=raw">Find and Copy Files</a></td><td>Finds and copies files in a directory.</td></tr><tr><td><a href="ArcGISRaster.FindAndCopy.html?format=raw">Find and Copy Rasters</a></td><td>Finds and copies rasters in an ArcGIS workspace.</td></tr><tr><td><a href="Directory.FindAndDelete.html?format=raw">Find and Delete Directories</a></td><td>Finds and deletes directories in a directory.</td></tr><tr><td><a href="File.FindAndDelete.html?format=raw">Find and Delete Files</a></td><td>Finds and deletes files in a directory.</td></tr><tr><td><a href="ArcGISRaster.FindAndDelete.html?format=raw">Find and Delete Rasters</a></td><td>Finds and deletes rasters in an ArcGIS workspace.</td></tr><tr><td><a href="Directory.FindAndMove.html?format=raw">Find and Move Directories</a></td><td>Finds and moves directories in a directory.</td></tr><tr><td><a href="File.FindAndMove.html?format=raw">Find and Move Files</a></td><td>Finds and moves files in a directory.</td></tr><tr><td><a href="ArcGISRaster.FindAndMove.html?format=raw">Find and Move Rasters</a></td><td>Finds and moves rasters in an ArcGIS workspace.</td></tr><tr><td><a href="GAM.FitToArcGISTable.html?format=raw">Fit GAM</a></td><td>Fits a generalized additive model (GAM) to data in a table.</td></tr><tr><td><a href="GLM.FitToArcGISTable.html?format=raw">Fit GLM</a></td><td>Fits a generalized linear model (GLM) to data in a table using the R glm function.</td></tr><tr><td><a href="LinearMixedModel.FitToArcGISTable.html?format=raw">Fit Linear Mixed Model</a></td><td>Fits a linear mixed-effects model to data in a table.</td></tr><tr><td><a href="RandomForestModel.FitToArcGISTable.html?format=raw">Fit Random Forest Model</a></td><td>Fits a random forest model to data in a table.</td></tr><tr><td><a href="TreeModel.FitToArcGISTable.html?format=raw">Fit Tree Model</a></td><td>Fits a tree model to data in a table.</td></tr><tr><td><a href="DiGIR.GetResourcesAsArcGISTable.html?format=raw">Get DiGIR Resources as Table</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from a DiGIR server and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.GetOBISResourcesAsArcGISTable.html?format=raw">Get OBIS DiGIR Resources as Table</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from OBIS and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.GetOBISSEAMAPResourcesAsArcGISTable.html?format=raw">Get OBIS-SEAMAP DiGIR Resources as Table</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from OBIS-SEAMAP and writes it to an ArcGIS table.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.InterpolateAtArcGISPoints.html?format=raw">Interpolate AVHRR Pathfinder V5 SST at Points</a></td><td>Interpolates AVHRR Pathfinder Version 5 SST values at points.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.InterpolateAtArcGISPoints.html?format=raw">Interpolate Aviso Geostrophic Currents Product at Points</a></td><td>Interpolates the values of an Aviso gridded geostrophic currents product at points.</td></tr><tr><td><a href="AvisoGriddedSSH.InterpolateAtArcGISPoints.html?format=raw">Interpolate Aviso SSH Product at Points</a></td><td>Interpolates the values of an Aviso gridded sea surface height product at points.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.InterpolateAtArcGISPoints.html?format=raw">Interpolate Aviso Significant Wave Height Product at Points</a></td><td>Interpolates the values of an Aviso gridded significant wave height product at points.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.InterpolateAtArcGISPoints.html?format=raw">Interpolate Aviso Wind Speed Modulus Product at Points</a></td><td>Interpolates the values of an Aviso gridded wind speed modulus product at points.</td></tr><tr><td><a href="CoRTADv32D.InterpolateAtArcGISPoints.html?format=raw">Interpolate CoRTAD 2D Variables at Points</a></td><td>Interpolates CoRTAD 2D variables at points.</td></tr><tr><td><a href="CoRTADv33D.InterpolateAtArcGISPoints.html?format=raw">Interpolate CoRTAD 3D Variables at Points</a></td><td>Interpolates CoRTAD 3D variables at points.</td></tr><tr><td><a href="GHRSSTLevel4.InterpolateAtArcGISPoints.html?format=raw">Interpolate GHRSST L4 SST at Points</a></td><td>Interpolates values of a GHRSST L4 product hosted by NASA JPL PO.DAAC at points.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.InterpolateAtArcGISPoints.html?format=raw">Interpolate HYCOM GLBa0.08 Equatorial 3D Variables at Points</a></td><td>Interpolates 3D variables of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset at points.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.InterpolateAtArcGISPoints.html?format=raw">Interpolate HYCOM GLBa0.08 Equatorial 4D Variables at Points</a></td><td>Interpolates 4D variables of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset at points.</td></tr><tr><td><a href="HYCOMGOMl0043D.InterpolateAtArcGISPoints.html?format=raw">Interpolate HYCOM GOMl0.04 3D Variables at Points</a></td><td>Interpolates HYCOM GOMl0.04 3D variables at points.</td></tr><tr><td><a href="HYCOMGOMl0044D.InterpolateAtArcGISPoints.html?format=raw">Interpolate HYCOM GOMl0.04 4D Variables at Points</a></td><td>Interpolates HYCOM GOMl0.04 4D variables at points.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.InterpolateAtArcGISPoints.html?format=raw">Interpolate NASA OceanColor L3 SMI Product at Points</a></td><td>Interpolates the values of a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group at points.</td></tr><tr><td><a href="Interpolator.InpaintArcGISRaster.html?format=raw">Interpolate No Data Cells</a></td><td>Interpolates values for the No Data cells of a raster.</td></tr><tr><td><a href="Interpolator.InpaintArcGISRasterArcGISTable.html?format=raw">Interpolate No Data Cells for ArcGIS Rasters Listed in Table</a></td><td>Interpolates values for the No Data cells for each ArcGIS raster in a table.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.InterpolateAtArcGISPoints.html?format=raw">Interpolate OSCAR Currents at Points</a></td><td>Interpolates the values of NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents at points.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.InterpolateAtArcGISPoints.html?format=raw">Interpolate PO.DAAC MODIS L3 SST at Points</a></td><td>Interpolates PO.DAAC MODIS Level 3 SST values at points.</td></tr><tr><td><a href="ROMSCoSiNE2D.InterpolateAtArcGISPoints.html?format=raw">Interpolate Pacific ROMS-CoSiNE 2D Variable at Points</a></td><td>Interpolates a Pacific ROMS-CoSiNE 2D variable at points.</td></tr><tr><td><a href="ROMSCoSiNE3D.InterpolateAtArcGISPoints.html?format=raw">Interpolate Pacific ROMS-CoSiNE 3D Variables at Points</a></td><td>Interpolates Pacific ROMS-CoSiNE 3D variables at points.</td></tr><tr><td><a href="ROMSCoSiNE4D.InterpolateAtArcGISPoints.html?format=raw">Interpolate Pacific ROMS-CoSiNE 4D Variables at Points</a></td><td>Interpolates Pacific ROMS-CoSiNE 4D variables at points.</td></tr><tr><td><a href="Interpolator.InterpolateArcGISRasterValuesAtPoints.html?format=raw">Interpolate Raster Values at Points</a></td><td>Interpolates the values of rasters at points.</td></tr><tr><td><a href="CoralReefConnectivity.LoadAvisoGeostrophicCurrentsIntoSimulation.html?format=raw">Load Aviso Geostrophic Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads Aviso geostrophic currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadHYCOMGLBa0084DEquatorialCurrentsIntoSimulation.html?format=raw">Load HYCOM GLBa0.08 Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads HYCOM GLBa0.08 ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadHYCOMGOMl0044DCurrentsIntoSimulation.html?format=raw">Load HYCOM GOMl0.04 Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads HYCOM GOMl0.04 ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadOSCARCurrentsIntoSimulation.html?format=raw">Load OSCAR Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadROMSCoSiNE4DCurrentsIntoSimulation.html?format=raw">Load Pacific ROMS-CoSiNE Currents Into Coral Reef Connectivity Simulation</a></td><td>Downloads Pacific ROMS-CoSiNE ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="Directory.MoveArcGISTable.html?format=raw">Move Directories Listed in Table</a></td><td>Moves the directories listed in a table.</td></tr><tr><td><a href="Directory.Move.html?format=raw">Move Directory</a></td><td>Moves a directory, including its subdirectories and files.</td></tr><tr><td><a href="File.Move.html?format=raw">Move File</a></td><td>Moves a file.</td></tr><tr><td><a href="File.MoveArcGISTable.html?format=raw">Move Files Listed in Table</a></td><td>Moves the files listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Move.html?format=raw">Move Raster</a></td><td>Moves an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.MoveArcGISTable.html?format=raw">Move Rasters Listed in Table</a></td><td>Moves the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="GAM.PredictFromArcGISRasters.html?format=raw">Predict GAM From Rasters</a></td><td>Using a fitted generalized additive model (GAM), this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="GAM.PredictFromArcGISTable.html?format=raw">Predict GAM From Table</a></td><td>Given a fitted generalized additive model (GAM), this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="GLM.PredictFromArcGISRasters.html?format=raw">Predict GLM From Rasters</a></td><td>Using a fitted generalized linear model (GLM), this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="GLM.PredictFromArcGISTable.html?format=raw">Predict GLM From Table</a></td><td>Given a fitted generalized linear model (GLM), this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="LinearMixedModel.PredictFromArcGISRasters.html?format=raw">Predict Linear Mixed Model From Rasters</a></td><td>Using a fitted linear mixed model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="RandomForestModel.PredictFromArcGISRasters.html?format=raw">Predict Random Forest From Rasters</a></td><td>Using a fitted random forest model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="RandomForestModel.PredictFromArcGISTable.html?format=raw">Predict Random Forest From Table</a></td><td>Given a random forest model, this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="TreeModel.PredictFromArcGISRasters.html?format=raw">Predict Tree Model From Rasters</a></td><td>Using a fitted tree model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="TreeModel.PredictFromArcGISTable.html?format=raw">Predict Tree Model From Table</a></td><td>Given a fitted tree model, this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="ArcGISRaster.ProjectToTemplate.html?format=raw">Project Raster to Template</a></td><td>Projects a raster to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.ProjectToTemplateArcGISTable.html?format=raw">Project Rasters Listed in Table to Template</a></td><td>Projects a table of rasters to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.ProjectClipAndOrExecuteMapAlgebra.html?format=raw">Project, Clip, and/or Execute Map Algebra</a></td><td>Projects, clips, and/or perfoms map algebra on an ArcGIS raster. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcGISRaster.ProjectClipAndOrExecuteMapAlgebraArcGISTable.html?format=raw">Project, Clip, and/or Execute Map Algebra on ArcGIS Rasters Listed in Table</a></td><td>Projects, clips, and/or perfoms map algebra on the ArcGIS rasters listed in a table. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ModelEvaluation.RandomlySplitArcGISTableIntoTrainingAndTestRecords.html?format=raw">Randomly Split Table Into Training and Test Records</a></td><td>Randomly designates the records of a table as either training records (for fitting a predictive model) or test records (for evaluating the model).</td></tr><tr><td><a href="CoralReefConnectivity.RunSimulation.html?format=raw">Run Coral Reef Connectivity Simulation</a></td><td>Executes a coral coral reef connectivity simulation.</td></tr><tr><td><a href="ArcGISFeatureSampler.SamplePolygons.html?format=raw">Sample Polygons</a></td><td>Samples the values of polygon fields at points that intersect the polygons.</td></tr><tr><td><a href="ArcGISRasterSampler.SampleRasters.html?format=raw">Sample Rasters</a></td><td>Samples rasters using a point feature class and stores the sampled values in fields of the feature class.</td></tr><tr><td><a href="ArcGISRasterSampler.SampleRastersInFields.html?format=raw">Sample Rasters Listed in Fields</a></td><td>Samples rasters listed in fields of a point feature class and stores the sampled values in other fields.</td></tr><tr><td><a href="ArcGISTableSampler.SampleTimeSeriesTable.html?format=raw">Sample Time Series Table</a></td><td>Matches records in a destination table to records in a time series table by date, and copies values of fields of the time series table to fields of the destination table.</td></tr><tr><td><a href="RExploratoryPlots.ScatterplotMatrixForArcGISTable.html?format=raw">Scatterplot Matrix for Table</a></td><td>Creates a matrix of scatterplots for a table using the R pairs function.</td></tr><tr><td><a href="DiGIR.SearchAndCreateArcGISPoints.html?format=raw">Search DiGIR Records and Create Points</a></td><td>Searches a Distributed Generic Information Retrieval (DiGIR) server for georeferenced records and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="DiGIR.SearchOBISAndCreateArcGISPoints.html?format=raw">Search OBIS DiGIR Records and Create Points</a></td><td>Searches OBIS for georeferenced records using the Distributed Generic Information Retrieval (DiGIR) protocol and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="DiGIR.SearchOBISSEAMAPAndCreateArcGISPoints.html?format=raw">Search OBIS-SEAMAP DiGIR Records and Create Points</a></td><td>Searches OBIS-SEAMAP for georeferenced records using the Distributed Generic Information Retrieval (DiGIR) protocol and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="CoastWatchAVHRR.SetNavigationOffsets.html?format=raw">Set CoastWatch Navigation Offsets</a></td><td>Sets the navigation offsets of a CoastWatch POES AVHRR CWF or HDF file.</td></tr><tr><td><a href="CoastWatchAVHRR.SetNavigationOffsetsArcGISTable.html?format=raw">Set Navigation Offsets of CoastWatch Files Listed in Table</a></td><td>Sets the navigation offsets of the CoastWatch POES AVHRR CWF or HDF files listed in a table to the values specified by two fields.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.SingleOutputMapAlgebraForRasterArcGISTable.html?format=raw">Single Output Map Algebra For Rasters Listed in Table</a></td><td>Executes a map algebra expression on the rasters listed in a table.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.SingleOutputMapAlgebraForArcGISTableRows.html?format=raw">Single Output Map Algebra for Table Rows</a></td><td>For each row of a table, calculates an output raster and map algebra expression from the row using Python expressions and executes the map algebra expression to produce the output raster.</td></tr><tr><td><a href="BinaryRaster.SwapBytes.html?format=raw">Swap Bytes of Binary Raster</a></td><td>Reverses the byte order of a binary raster (e.g. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="BinaryRaster.SwapBytesArcGISTable.html?format=raw">Swap Bytes of Binary Rasters Listed in Table</a></td><td>Reverses the byte order of each binary raster listed in a table (i.e. converts "little endian" to "big endian", or visa versa).</td></tr></table></p><h1><a id="IndexByName">Tool Index, By Name</a></h1><p>In the table below, <i>Tool Name</i> is the programming name used to invoke the tool
+         from the ArcGIS command line or from the geoprocessor object in a geoprocessing script.</p><p><table><tr><th>Tool Name</th><th>Description</th></tr><tr><td><a href="ADODatabaseConnection.ConnectAndExecuteCommand.html?format=raw">ADODatabaseConnectionConnectAndExecuteCommand_GeoEco</a></td><td>Opens a Microsoft ActiveX Data Objects (ADO) connection to a database and executes a command.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateArcGISRasters.html?format=raw">AVHRRPathfinderSSTTimeSeriesCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for AVHRR Pathfinder Version 5 SST images published by NOAA NODC.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">AVHRRPathfinderSSTTimeSeriesCreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in AVHRR Pathfinder Version 5 SST images published by NOAA NODC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">AVHRRPathfinderSSTTimeSeriesCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters from AVHRR Pathfinder Version 5 SST images published by NOAA NODC.</td></tr><tr><td><a href="AVHRRPathfinderSSTTimeSeries.InterpolateAtArcGISPoints.html?format=raw">AVHRRPathfinderSSTTimeSeriesInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates AVHRR Pathfinder Version 5 SST values at points.</td></tr><tr><td><a href="ArcGISFeatureSampler.SamplePolygons.html?format=raw">ArcGISFeatureSamplerSamplePolygons_GeoEco</a></td><td>Samples the values of polygon fields at points that intersect the polygons.</td></tr><tr><td><a href="ArcGISFishnets.CreateFishnetForPoints.html?format=raw">ArcGISFishnetsCreateFishnetForPoints_GeoEco</a></td><td>Creates a grid of rectangular cells that overlap the input points and optionally calculates summary statistics for the points that intersect each cell.</td></tr><tr><td><a href="ArcGISFishnets.CreateFishnet.html?format=raw">ArcGISFishnetsCreateFishnet_GeoEco</a></td><td>Creates a grid of rectangular polygons.</td></tr><tr><td><a href="ArcGISLines.FromVectorComponentRastersInArcGISTable.html?format=raw">ArcGISLinesFromVectorComponentRastersInArcGISTable_GeoEco</a></td><td>Given a table of rasters representing the x and y components of vector fields, such as the u and v rasters for ocean currents, this tool creates feature classes of lines representing the vectors, similar to a "quiver plot".</td></tr><tr><td><a href="ArcGISLines.FromVectorComponentRasters.html?format=raw">ArcGISLinesFromVectorComponentRasters_GeoEco</a></td><td>Given rasters representing the x and y components of a vector field, such as the u and v rasters for ocean currents, this tool creates a feature class of lines representing the vectors, similar to a "quiver plot".</td></tr><tr><td><a href="ArcGISPoints.AppendPointsToFeatureClass2.html?format=raw">ArcGISPointsAppendPointsToFeatureClass2_GeoEco</a></td><td>Appends points to an existing ArcGIS point feature class.</td></tr><tr><td><a href="ArcGISPoints.CreateFeatureClassWithPoints2.html?format=raw">ArcGISPointsCreateFeatureClassWithPoints2_GeoEco</a></td><td>Creates points in a new ArcGIS point feature class.</td></tr><tr><td><a href="ArcGISPoints.CreatePointsAlongLines.html?format=raw">ArcGISPointsCreatePointsAlongLines_GeoEco</a></td><td>Creates points along lines at a specified interval.</td></tr><tr><td><a href="ArcGISPoints.FindNearestFeaturesListedInField.html?format=raw">ArcGISPointsFindNearestFeaturesListedInField_GeoEco</a></td><td>For each point, using the feature class or layer listed in a field, finds the nearest feature and writes its ID, distance, angle, and/or values of specified fields to fields of the point. Use this tool when you have a single point feature class but need to find distances to different near feature classes or layers for different points.</td></tr><tr><td><a href="ArcGISPoints.FindNearestFeatures.html?format=raw">ArcGISPointsFindNearestFeatures_GeoEco</a></td><td>For each point, finds the nearest feature and writes its ID, distance, angle, and/or values of specified fields to fields of the point.</td></tr><tr><td><a href="ArcGISPolygons.AppendPolygonToFeatureClass2.html?format=raw">ArcGISPolygonsAppendPolygonToFeatureClass2_GeoEco</a></td><td>Appends a polygon to an existing ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISPolygons.AppendRectangleToFeatureClass2.html?format=raw">ArcGISPolygonsAppendRectangleToFeatureClass2_GeoEco</a></td><td>Appends a rectangle to an existing ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISPolygons.CreateBoundingBoxForArcGISGeoDatasets.html?format=raw">ArcGISPolygonsCreateBoundingBoxForArcGISGeoDatasets_GeoEco</a></td><td>Creates a new ArcGIS polygon feature class and a bounding box (a minimum bounding rectangle) within it that encompasses the extents of one or more ArcGIS geodatasets.</td></tr><tr><td><a href="ArcGISPolygons.CreateFeatureClassWithPolygon2.html?format=raw">ArcGISPolygonsCreateFeatureClassWithPolygon2_GeoEco</a></td><td>Creates a polygon in a new ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISPolygons.CreateFeatureClassWithRectangle2.html?format=raw">ArcGISPolygonsCreateFeatureClassWithRectangle2_GeoEco</a></td><td>Creates a rectangle in a new ArcGIS polygon feature class.</td></tr><tr><td><a href="ArcGISRaster.CopyArcGISTable.html?format=raw">ArcGISRasterCopyArcGISTable_GeoEco</a></td><td>Copies the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Copy.html?format=raw">ArcGISRasterCopy_GeoEco</a></td><td>Copies an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.CreateXRaster.html?format=raw">ArcGISRasterCreateXRaster_GeoEco</a></td><td>Creates an ArcGIS raster where the value of each cell is the X coordinate of the cell.</td></tr><tr><td><a href="ArcGISRaster.CreateYRaster.html?format=raw">ArcGISRasterCreateYRaster_GeoEco</a></td><td>Creates an ArcGIS raster where the value of each cell is the Y coordinate of the cell.</td></tr><tr><td><a href="ArcGISRaster.DeleteArcGISTable.html?format=raw">ArcGISRasterDeleteArcGISTable_GeoEco</a></td><td>Deletes the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Delete.html?format=raw">ArcGISRasterDelete_GeoEco</a></td><td>Deletes an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.ExtractByMaskArcGISTable.html?format=raw">ArcGISRasterExtractByMaskArcGISTable_GeoEco</a></td><td>For each ArcGIS raster in a table, extracts the cells that correspond to the areas defined by a mask.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToLines.html?format=raw">ArcGISRasterFindAndConvertToLines_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and converts them to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPoints.html?format=raw">ArcGISRasterFindAndConvertToPoints_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and converts them to points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPolygonOutlines.html?format=raw">ArcGISRasterFindAndConvertToPolygonOutlines_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and converts them to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndConvertToPolygons.html?format=raw">ArcGISRasterFindAndConvertToPolygons_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and converts them to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.FindAndCopy.html?format=raw">ArcGISRasterFindAndCopy_GeoEco</a></td><td>Finds and copies rasters in an ArcGIS workspace.</td></tr><tr><td><a href="ArcGISRaster.FindAndCreateArcGISTable.html?format=raw">ArcGISRasterFindAndCreateArcGISTable_GeoEco</a></td><td>Finds rasters within an ArcGIS workspace and creates a table that lists them.</td></tr><tr><td><a href="ArcGISRaster.FindAndDelete.html?format=raw">ArcGISRasterFindAndDelete_GeoEco</a></td><td>Finds and deletes rasters in an ArcGIS workspace.</td></tr><tr><td><a href="ArcGISRaster.FindAndExtractByMask.html?format=raw">ArcGISRasterFindAndExtractByMask_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and extracts the cells that correspond to the areas defined by a mask.</td></tr><tr><td><a href="ArcGISRaster.FindAndMove.html?format=raw">ArcGISRasterFindAndMove_GeoEco</a></td><td>Finds and moves rasters in an ArcGIS workspace.</td></tr><tr><td><a href="ArcGISRaster.FindAndProjectClipAndOrExecuteMapAlgebra.html?format=raw">ArcGISRasterFindAndProjectClipAndOrExecuteMapAlgebra_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and projects, clips, and/or perfoms map algebra on them. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcGISRaster.FindAndProjectRastersToTemplate.html?format=raw">ArcGISRasterFindAndProjectRastersToTemplate_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and projects them to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.MoveArcGISTable.html?format=raw">ArcGISRasterMoveArcGISTable_GeoEco</a></td><td>Moves the ArcGIS rasters listed in a table.</td></tr><tr><td><a href="ArcGISRaster.Move.html?format=raw">ArcGISRasterMove_GeoEco</a></td><td>Moves an ArcGIS raster.</td></tr><tr><td><a href="ArcGISRaster.ProjectClipAndOrExecuteMapAlgebraArcGISTable.html?format=raw">ArcGISRasterProjectClipAndOrExecuteMapAlgebraArcGISTable_GeoEco</a></td><td>Projects, clips, and/or perfoms map algebra on the ArcGIS rasters listed in a table. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcGISRaster.ProjectClipAndOrExecuteMapAlgebra.html?format=raw">ArcGISRasterProjectClipAndOrExecuteMapAlgebra_GeoEco</a></td><td>Projects, clips, and/or perfoms map algebra on an ArcGIS raster. You must request at least one of these three operations. If you request multiple operations, the tool performs them in the order they are listed.</td></tr><tr><td><a href="ArcGISRaster.ProjectToTemplateArcGISTable.html?format=raw">ArcGISRasterProjectToTemplateArcGISTable_GeoEco</a></td><td>Projects a table of rasters to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.ProjectToTemplate.html?format=raw">ArcGISRasterProjectToTemplate_GeoEco</a></td><td>Projects a raster to the coordinate system, cell size, and extent of a template raster.</td></tr><tr><td><a href="ArcGISRaster.ToLinesArcGISTable.html?format=raw">ArcGISRasterToLinesArcGISTable_GeoEco</a></td><td>Converts the ArcGIS rasters listed in a table to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToLines.html?format=raw">ArcGISRasterToLines_GeoEco</a></td><td>Converts an ArcGIS raster to a feature class of lines that connect adjacent foreground raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPointsArcGISTable.html?format=raw">ArcGISRasterToPointsArcGISTable_GeoEco</a></td><td>Converts the ArcGIS rasters listed in a table to points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPoints.html?format=raw">ArcGISRasterToPoints_GeoEco</a></td><td>Converts an ArcGIS raster to a feature class of points that occur at the centers of the raster cells.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonOutlinesArcGISTable.html?format=raw">ArcGISRasterToPolygonOutlinesArcGISTable_GeoEco</a></td><td>Converts the ArcGIS rasters listed in a table to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonOutlines.html?format=raw">ArcGISRasterToPolygonOutlines_GeoEco</a></td><td>Converts an ArcGIS raster to lines that outline groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygonsArcGISTable.html?format=raw">ArcGISRasterToPolygonsArcGISTable_GeoEco</a></td><td>Converts the ArcGIS rasters listed in a table to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRaster.ToPolygons.html?format=raw">ArcGISRasterToPolygons_GeoEco</a></td><td>Converts an ArcGIS raster to polygons that encompass groups of adjacent raster cells having the same value.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.FindRastersAndExecuteSingleOutputMapAlgebra.html?format=raw">ArcGISRasterMapAlgebraFindRastersAndExecuteSingleOutputMapAlgebra_GeoEco</a></td><td>Finds rasters in a workspace and executes a map algebra expression on them.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.SingleOutputMapAlgebraForArcGISTableRows.html?format=raw">ArcGISRasterMapAlgebraSingleOutputMapAlgebraForArcGISTableRows_GeoEco</a></td><td>For each row of a table, calculates an output raster and map algebra expression from the row using Python expressions and executes the map algebra expression to produce the output raster.</td></tr><tr><td><a href="ArcGISRasterMapAlgebra.SingleOutputMapAlgebraForRasterArcGISTable.html?format=raw">ArcGISRasterMapAlgebraSingleOutputMapAlgebraForRasterArcGISTable_GeoEco</a></td><td>Executes a map algebra expression on the rasters listed in a table.</td></tr><tr><td><a href="ArcGISRasterSampler.SampleRastersInFields.html?format=raw">ArcGISRasterSamplerSampleRastersInFields_GeoEco</a></td><td>Samples rasters listed in fields of a point feature class and stores the sampled values in other fields.</td></tr><tr><td><a href="ArcGISRasterSampler.SampleRasters.html?format=raw">ArcGISRasterSamplerSampleRasters_GeoEco</a></td><td>Samples rasters using a point feature class and stores the sampled values in fields of the feature class.</td></tr><tr><td><a href="ArcGISTableSampler.SampleTimeSeriesTable.html?format=raw">ArcGISTableSamplerSampleTimeSeriesTable_GeoEco</a></td><td>Matches records in a destination table to records in a time series table by date, and copies values of fields of the time series table to fields of the destination table.</td></tr><tr><td><a href="ArcInfoASCIIGrid.FindAndConvertToArcGISRaster.html?format=raw">ArcInfoASCIIGridFindAndConvertToArcGISRaster_GeoEco</a></td><td>Finds ArcInfo ASCII Grid text files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="ArcInfoASCIIGrid.ToArcGISRasterArcGISTable.html?format=raw">ArcInfoASCIIGridToArcGISRasterArcGISTable_GeoEco</a></td><td>Converts each ArcInfo ASCII Grid text file in a table to an ArcGIS raster.</td></tr><tr><td><a href="ArcInfoASCIIGrid.ToArcGISRaster.html?format=raw">ArcInfoASCIIGridToArcGISRaster_GeoEco</a></td><td>Converts a text file in ArcInfo ASCII Grid format to an ArcGIS raster.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateArcGISRasters.html?format=raw">AvisoGriddedGeostrophicCurrentsCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateClimatologicalArcGISRasters.html?format=raw">AvisoGriddedGeostrophicCurrentsCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.CreateVectorsAsArcGISFeatureClasses.html?format=raw">AvisoGriddedGeostrophicCurrentsCreateVectorsAsArcGISFeatureClasses_GeoEco</a></td><td>Creates line feature classes representing the current vectors of an Aviso gridded geostrophic currents product.</td></tr><tr><td><a href="AvisoGriddedGeostrophicCurrents.InterpolateAtArcGISPoints.html?format=raw">AvisoGriddedGeostrophicCurrentsInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of an Aviso gridded geostrophic currents product at points.</td></tr><tr><td><a href="AvisoGriddedSSH.CreateArcGISRasters.html?format=raw">AvisoGriddedSSHCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for an Aviso gridded sea surface height product.</td></tr><tr><td><a href="AvisoGriddedSSH.CreateClimatologicalArcGISRasters.html?format=raw">AvisoGriddedSSHCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for an Aviso gridded sea surface height product.</td></tr><tr><td><a href="AvisoGriddedSSH.FindOkuboWeissEddies.html?format=raw">AvisoGriddedSSHFindOkuboWeissEddies_GeoEco</a></td><td>Creates rasters showing the cores of geostrophic eddies detected in an Aviso gridded sea surface height product using the Okubo-Weiss algorithm.</td></tr><tr><td><a href="AvisoGriddedSSH.InterpolateAtArcGISPoints.html?format=raw">AvisoGriddedSSHInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of an Aviso gridded sea surface height product at points.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.CreateArcGISRasters.html?format=raw">AvisoGriddedSignificantWaveHeightCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for an Aviso gridded significant wave height product.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.CreateClimatologicalArcGISRasters.html?format=raw">AvisoGriddedSignificantWaveHeightCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for an Aviso gridded significant wave height product.</td></tr><tr><td><a href="AvisoGriddedSignificantWaveHeight.InterpolateAtArcGISPoints.html?format=raw">AvisoGriddedSignificantWaveHeightInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of an Aviso gridded significant wave height product at points.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.CreateArcGISRasters.html?format=raw">AvisoGriddedWindSpeedModulusCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for an Aviso gridded wind speed modulus product.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.CreateClimatologicalArcGISRasters.html?format=raw">AvisoGriddedWindSpeedModulusCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for an Aviso gridded wind speed modulus product.</td></tr><tr><td><a href="AvisoGriddedWindSpeedModulus.InterpolateAtArcGISPoints.html?format=raw">AvisoGriddedWindSpeedModulusInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of an Aviso gridded wind speed modulus product at points.</td></tr><tr><td><a href="BinaryRaster.FindAndConvertToArcGISRaster.html?format=raw">BinaryRasterFindAndConvertToArcGISRaster_GeoEco</a></td><td>Finds two-dimensional binary rasters in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="BinaryRaster.FindAndConvertToArcInfoASCIIGrid.html?format=raw">BinaryRasterFindAndConvertToArcInfoASCIIGrid_GeoEco</a></td><td>Finds two-dimensional binary rasters in a directory and converts them to text files in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="BinaryRaster.FindAndSwapBytes.html?format=raw">BinaryRasterFindAndSwapBytes_GeoEco</a></td><td>Finds and reverses the byte order of binary rasters in a directory (i.e. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="BinaryRaster.SwapBytesArcGISTable.html?format=raw">BinaryRasterSwapBytesArcGISTable_GeoEco</a></td><td>Reverses the byte order of each binary raster listed in a table (i.e. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="BinaryRaster.SwapBytes.html?format=raw">BinaryRasterSwapBytes_GeoEco</a></td><td>Reverses the byte order of a binary raster (e.g. converts "little endian" to "big endian", or visa versa).</td></tr><tr><td><a href="BinaryRaster.ToArcGISRasterArcGISTable.html?format=raw">BinaryRasterToArcGISRasterArcGISTable_GeoEco</a></td><td>Converts each two-dimensional binary raster in a table to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcGISRaster.html?format=raw">BinaryRasterToArcGISRaster_GeoEco</a></td><td>Converts a two-dimensional binary raster to an ArcGIS raster.</td></tr><tr><td><a href="BinaryRaster.ToArcInfoASCIIGridArcGISTable.html?format=raw">BinaryRasterToArcInfoASCIIGridArcGISTable_GeoEco</a></td><td>Converts each two-dimensional binary raster in a table to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="BinaryRaster.ToArcInfoASCIIGrid.html?format=raw">BinaryRasterToArcInfoASCIIGrid_GeoEco</a></td><td>Converts a two-dimensional binary raster to a text file in ArcGIS ASCII Grid format.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInArcGISRaster.html?format=raw">CayulaCornillonEdgeDetectionDetectEdgesInArcGISRaster_GeoEco</a></td><td>Finds fronts in an ArcGIS raster using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInArcGISRastersArcGISTable.html?format=raw">CayulaCornillonEdgeDetectionDetectEdgesInArcGISRastersArcGISTable_GeoEco</a></td><td>Finds fronts in ArcGIS rasters listed in a table using the Cayula and Cornillon (1992) single-image edge detection algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.DetectEdgesInBinaryRaster.html?format=raw">CayulaCornillonEdgeDetectionDetectEdgesInBinaryRaster_GeoEco</a></td><td>Finds fronts in a binary raster using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="CayulaCornillonEdgeDetection.FindArcGISRastersAndDetectEdges.html?format=raw">CayulaCornillonEdgeDetectionFindArcGISRastersAndDetectEdges_GeoEco</a></td><td>Finds ArcGIS rasters in a workspace and finds fronts within them using the Cayula and Cornillon (1992) single-image edge detection algorithm.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ConvertToSpatiaLite.html?format=raw">CheltonMesocaleEddyPointsConvertToSpatiaLite_GeoEco</a></td><td>Converts the Chelton et al. (2011) mesoscale eddy database netCDF file to a SpatiaLite database.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ExtractArcGISLinesFromSpatiaLite.html?format=raw">CheltonMesocaleEddyPointsExtractArcGISLinesFromSpatiaLite_GeoEco</a></td><td>Extracts eddy tracklines from the Chelton et al. (2011) mesoscale eddy database in SpatiaLite format.</td></tr><tr><td><a href="CheltonMesocaleEddyPoints.ExtractArcGISPointsFromSpatiaLite.html?format=raw">CheltonMesocaleEddyPointsExtractArcGISPointsFromSpatiaLite_GeoEco</a></td><td>Extracts eddy centroid points from the Chelton et al. (2011) mesoscale eddy database in SpatiaLite format.</td></tr><tr><td><a href="ChildProcess.ExecuteProgram.html?format=raw">ChildProcessExecuteProgram_GeoEco</a></td><td>Executes the specified program and captures its output.</td></tr><tr><td><a href="CoRTADv32D.CreateArcGISRaster.html?format=raw">CoRTADv32DCreateArcGISRaster_GeoEco</a></td><td>Creates a raster for a CoRTAD 2D variable.</td></tr><tr><td><a href="CoRTADv32D.InterpolateAtArcGISPoints.html?format=raw">CoRTADv32DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates CoRTAD 2D variables at points.</td></tr><tr><td><a href="CoRTADv33D.CreateArcGISRasters.html?format=raw">CoRTADv33DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters a CoRTAD 3D variable.</td></tr><tr><td><a href="CoRTADv33D.InterpolateAtArcGISPoints.html?format=raw">CoRTADv33DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates CoRTAD 3D variables at points.</td></tr><tr><td><a href="CoastWatchAVHRR.CopyNavigationOffsetsArcGISTable.html?format=raw">CoastWatchAVHRRCopyNavigationOffsetsArcGISTable_GeoEco</a></td><td>Copies navigation offsets from a source variable to destination variables in CoastWatch POES AVHRR CWF or HDF files listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.CopyNavigationOffsets.html?format=raw">CoastWatchAVHRRCopyNavigationOffsets_GeoEco</a></td><td>Copies the navigation offsets from one variable in a CoastWatch POES AVHRR CWF or HDF file to one or more variables in another file.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMaskAsArcGISRaster.html?format=raw">CoastWatchAVHRRCreateMaskAsArcGISRaster_GeoEco</a></td><td>Creates a mask, in ArcGIS raster format, for a CoastWatch POES AVHRR image.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMaskAsBinaryRaster.html?format=raw">CoastWatchAVHRRCreateMaskAsBinaryRaster_GeoEco</a></td><td>Creates a mask, in binary raster format, for a CoastWatch POES AVHRR image.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMasksAsArcGISRastersArcGISTable.html?format=raw">CoastWatchAVHRRCreateMasksAsArcGISRastersArcGISTable_GeoEco</a></td><td>Creates masks, in ArcGIS raster format, for CoastWatch POES AVHRR images listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.CreateMasksAsBinaryRastersArcGISTable.html?format=raw">CoastWatchAVHRRCreateMasksAsBinaryRastersArcGISTable_GeoEco</a></td><td>Creates masks, in binary raster format, for CoastWatch POES AVHRR images listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToArcGISRasters.html?format=raw">CoastWatchAVHRRFindAndConvertToArcGISRasters_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToBinaryRasters.html?format=raw">CoastWatchAVHRRFindAndConvertToBinaryRasters_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and converts them to binary rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndConvertToCoastWatchHDFs.html?format=raw">CoastWatchAVHRRFindAndConvertToCoastWatchHDFs_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory and imports them into CoastWatch HDFs.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndCreateMasksAsArcGISRasters.html?format=raw">CoastWatchAVHRRFindAndCreateMasksAsArcGISRasters_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in ArcGIS raster format.</td></tr><tr><td><a href="CoastWatchAVHRR.FindAndCreateMasksAsBinaryRasters.html?format=raw">CoastWatchAVHRRFindAndCreateMasksAsBinaryRasters_GeoEco</a></td><td>Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in binary raster format.</td></tr><tr><td><a href="CoastWatchAVHRR.FindCoastWatchFilesAndFindFrontsAsArcGISRasters.html?format=raw">CoastWatchAVHRRFindCoastWatchFilesAndFindFrontsAsArcGISRasters_GeoEco</a></td><td>Uses the Cayula and Cornillon (1992) single-image edge detection algorithm to find fronts in the CoastWatch POES AVHRR images found in a directory, and outputs the fronts as ArcGIS rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFilesAndCreateArcGISTable.html?format=raw">CoastWatchAVHRRFindFilesAndCreateArcGISTable_GeoEco</a></td><td>Finds CoastWatch POES AVHRR files within a directory and creates a table that lists them.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsArcGISRaster.html?format=raw">CoastWatchAVHRRFindFrontsAsArcGISRaster_GeoEco</a></td><td>Finds fronts in a CoastWatch POES AVHRR image using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them to an ArcGIS raster.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsArcGISRastersArcGISTable.html?format=raw">CoastWatchAVHRRFindFrontsAsArcGISRastersArcGISTable_GeoEco</a></td><td>Finds fronts in CoastWatch POES AVHRR images listed in a table using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them as ArcGIS rasters.</td></tr><tr><td><a href="CoastWatchAVHRR.FindFrontsAsBinaryRaster.html?format=raw">CoastWatchAVHRRFindFrontsAsBinaryRaster_GeoEco</a></td><td>Finds fronts in a CoastWatch POES AVHRR image using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them to a binary raster.</td></tr><tr><td><a href="CoastWatchAVHRR.FindImagesInFilesAndCreateArcGISTable.html?format=raw">CoastWatchAVHRRFindImagesInFilesAndCreateArcGISTable_GeoEco</a></td><td>Finds CoastWatch POES AVHRR files within a directory and creates a table that lists the images within them.</td></tr><tr><td><a href="CoastWatchAVHRR.SetNavigationOffsetsArcGISTable.html?format=raw">CoastWatchAVHRRSetNavigationOffsetsArcGISTable_GeoEco</a></td><td>Sets the navigation offsets of the CoastWatch POES AVHRR CWF or HDF files listed in a table to the values specified by two fields.</td></tr><tr><td><a href="CoastWatchAVHRR.SetNavigationOffsets.html?format=raw">CoastWatchAVHRRSetNavigationOffsets_GeoEco</a></td><td>Sets the navigation offsets of a CoastWatch POES AVHRR CWF or HDF file.</td></tr><tr><td><a href="CoastWatchAVHRR.ToArcGISRasterArcGISTable.html?format=raw">CoastWatchAVHRRToArcGISRasterArcGISTable_GeoEco</a></td><td>Creates an ArcGIS raster from each CoastWatch POES AVHRR image listed in a table of images, where one field specifies the file path containing the image and another specifies the variable that represents the image.</td></tr><tr><td><a href="CoastWatchAVHRR.ToArcGISRaster.html?format=raw">CoastWatchAVHRRToArcGISRaster_GeoEco</a></td><td>Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to an ArcGIS raster.</td></tr><tr><td><a href="CoastWatchAVHRR.ToBinaryRasterArcGISTable.html?format=raw">CoastWatchAVHRRToBinaryRasterArcGISTable_GeoEco</a></td><td>Creates a binary raster from each CoastWatch POES AVHRR image listed in a table of images, where one field specifies the file path containing the image and another specifies the variable that represents the image.</td></tr><tr><td><a href="CoastWatchAVHRR.ToBinaryRaster.html?format=raw">CoastWatchAVHRRToBinaryRaster_GeoEco</a></td><td>Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to a binary raster.</td></tr><tr><td><a href="CoastWatchAVHRR.ToCoastWatchHDFArcGISTable.html?format=raw">CoastWatchAVHRRToCoastWatchHDFArcGISTable_GeoEco</a></td><td>Creates CoastWatch HDFs in a specified output directory by importing images from the CoastWatch POES AVHRR CWFs or HDFs listed in a table.</td></tr><tr><td><a href="CoastWatchAVHRR.ToCoastWatchHDF.html?format=raw">CoastWatchAVHRRToCoastWatchHDF_GeoEco</a></td><td>Creates a CoastWatch HDF by importing images from a list of CoastWatch POES AVHRR CWFs or HDFs.</td></tr><tr><td><a href="CoralReefConnectivity.CreateSimulationFromArcGISRasters.html?format=raw">CoralReefConnectivityCreateSimulationFromArcGISRasters_GeoEco</a></td><td>Creates a coral reef connectivity simulation and initializes it with reef data in ArcGIS rasters.</td></tr><tr><td><a href="CoralReefConnectivity.LoadAvisoGeostrophicCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadAvisoGeostrophicCurrentsIntoSimulation_GeoEco</a></td><td>Downloads Aviso geostrophic currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadHYCOMGLBa0084DEquatorialCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadHYCOMGLBa0084DEquatorialCurrentsIntoSimulation_GeoEco</a></td><td>Downloads HYCOM GLBa0.08 ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadHYCOMGOMl0044DCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadHYCOMGOMl0044DCurrentsIntoSimulation_GeoEco</a></td><td>Downloads HYCOM GOMl0.04 ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadOSCARCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadOSCARCurrentsIntoSimulation_GeoEco</a></td><td>Downloads NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.LoadROMSCoSiNE4DCurrentsIntoSimulation.html?format=raw">CoralReefConnectivityLoadROMSCoSiNE4DCurrentsIntoSimulation_GeoEco</a></td><td>Downloads Pacific ROMS-CoSiNE ocean currents into a coral reef connectivity simulation.</td></tr><tr><td><a href="CoralReefConnectivity.RunSimulation.html?format=raw">CoralReefConnectivityRunSimulation_GeoEco</a></td><td>Executes a coral coral reef connectivity simulation.</td></tr><tr><td><a href="DiGIR.GetOBISResourcesAsArcGISTable.html?format=raw">DiGIRGetOBISResourcesAsArcGISTable_GeoEco</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from OBIS and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.GetOBISSEAMAPResourcesAsArcGISTable.html?format=raw">DiGIRGetOBISSEAMAPResourcesAsArcGISTable_GeoEco</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from OBIS-SEAMAP and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.GetResourcesAsArcGISTable.html?format=raw">DiGIRGetResourcesAsArcGISTable_GeoEco</a></td><td>Gets the list of Distributed Generic Information Retrieval (DiGIR) resources available from a DiGIR server and writes it to an ArcGIS table.</td></tr><tr><td><a href="DiGIR.SearchAndCreateArcGISPoints.html?format=raw">DiGIRSearchAndCreateArcGISPoints_GeoEco</a></td><td>Searches a Distributed Generic Information Retrieval (DiGIR) server for georeferenced records and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="DiGIR.SearchOBISAndCreateArcGISPoints.html?format=raw">DiGIRSearchOBISAndCreateArcGISPoints_GeoEco</a></td><td>Searches OBIS for georeferenced records using the Distributed Generic Information Retrieval (DiGIR) protocol and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="DiGIR.SearchOBISSEAMAPAndCreateArcGISPoints.html?format=raw">DiGIRSearchOBISSEAMAPAndCreateArcGISPoints_GeoEco</a></td><td>Searches OBIS-SEAMAP for georeferenced records using the Distributed Generic Information Retrieval (DiGIR) protocol and creates an ArcGIS point feature class from them.</td></tr><tr><td><a href="Directory.CopyArcGISTable.html?format=raw">DirectoryCopyArcGISTable_GeoEco</a></td><td>Copies the directories listed in a table.</td></tr><tr><td><a href="Directory.Copy.html?format=raw">DirectoryCopy_GeoEco</a></td><td>Copies a directory, including its subdirectories and files.</td></tr><tr><td><a href="Directory.CreateSubdirectory.html?format=raw">DirectoryCreateSubdirectory_GeoEco</a></td><td>Creates a subdirectory within a parent directory.</td></tr><tr><td><a href="Directory.CreateTemporaryDirectory.html?format=raw">DirectoryCreateTemporaryDirectory_GeoEco</a></td><td>Creates a directory suitable for holding temporary files.</td></tr><tr><td><a href="Directory.Create.html?format=raw">DirectoryCreate_GeoEco</a></td><td>Creates a directory, including any parent directories that are missing.</td></tr><tr><td><a href="Directory.DeleteArcGISTable.html?format=raw">DirectoryDeleteArcGISTable_GeoEco</a></td><td>Deletes the directories listed in a table.</td></tr><tr><td><a href="Directory.Delete.html?format=raw">DirectoryDelete_GeoEco</a></td><td>Deletes a directory.</td></tr><tr><td><a href="Directory.FindAndCopy.html?format=raw">DirectoryFindAndCopy_GeoEco</a></td><td>Finds and copies directories in a directory.</td></tr><tr><td><a href="Directory.FindAndCreateArcGISTable.html?format=raw">DirectoryFindAndCreateArcGISTable_GeoEco</a></td><td>Finds subdirectories within a directory and creates a table that lists them.</td></tr><tr><td><a href="Directory.FindAndDelete.html?format=raw">DirectoryFindAndDelete_GeoEco</a></td><td>Finds and deletes directories in a directory.</td></tr><tr><td><a href="Directory.FindAndMove.html?format=raw">DirectoryFindAndMove_GeoEco</a></td><td>Finds and moves directories in a directory.</td></tr><tr><td><a href="Directory.MoveArcGISTable.html?format=raw">DirectoryMoveArcGISTable_GeoEco</a></td><td>Moves the directories listed in a table.</td></tr><tr><td><a href="Directory.Move.html?format=raw">DirectoryMove_GeoEco</a></td><td>Moves a directory, including its subdirectories and files.</td></tr><tr><td><a href="ESRLClimateIndices.ClassifyONIEpisodesInTimeSeriesArcGISTable.html?format=raw">ESRLClimateIndicesClassifyONIEpisodesInTimeSeriesArcGISTable_GeoEco</a></td><td>Given a time series table of monthly Oceanic Nino Index (ONI) numerical values, classifies each month as part of a normal, El Nino (warm), or La Nina (cold) episode.</td></tr><tr><td><a href="ESRLClimateIndices.FileToArcGISTable.html?format=raw">ESRLClimateIndicesFileToArcGISTable_GeoEco</a></td><td>Creates and populates a table of climate index values parsed from a text file in NOAA ESRL time series format.</td></tr><tr><td><a href="ESRLClimateIndices.FilesToArcGISTable.html?format=raw">ESRLClimateIndicesFilesToArcGISTable_GeoEco</a></td><td>Creates and populates a table of climate index values parsed from a list of text files, where each file contains the data for a single climate index in NOAA ESRL time series format.</td></tr><tr><td><a href="ESRLClimateIndices.UrlToArcGISTable.html?format=raw">ESRLClimateIndicesUrlToArcGISTable_GeoEco</a></td><td>Creates and populates a table of climate index values parsed from NOAA ESRL climate index time series data downloaded from a URL.</td></tr><tr><td><a href="ESRLClimateIndices.UrlsToArcGISTable.html?format=raw">ESRLClimateIndicesUrlsToArcGISTable_GeoEco</a></td><td>Creates and populates a table of climate index values parsed from NOAA ESRL climate index time series data downloaded from a list of URLs.</td></tr><tr><td><a href="FEET.CreateEnvelopes.html?format=raw">FEETCreateEnvelopes_GeoEco</a></td><td>Models the spatial distribution of fishing effort for fisheries for which no spatially-explicit effort data is available.</td></tr><tr><td><a href="Field.CalculateArcGISField.html?format=raw">FieldCalculateArcGISField_GeoEco</a></td><td>Calculates the value of a table field using a Python expression.</td></tr><tr><td><a href="Field.CalculateArcGISFields.html?format=raw">FieldCalculateArcGISFields_GeoEco</a></td><td>Calculates values for one or more fields of a table using Python expressions.</td></tr><tr><td><a href="File.CopyArcGISTable.html?format=raw">FileCopyArcGISTable_GeoEco</a></td><td>Copies the files listed in a table.</td></tr><tr><td><a href="File.Copy.html?format=raw">FileCopy_GeoEco</a></td><td>Copies a file.</td></tr><tr><td><a href="File.Decompress.html?format=raw">FileDecompress_GeoEco</a></td><td>Decompresses a file into a directory.</td></tr><tr><td><a href="File.DeleteArcGISTable.html?format=raw">FileDeleteArcGISTable_GeoEco</a></td><td>Deletes the files listed in a table.</td></tr><tr><td><a href="File.Delete.html?format=raw">FileDelete_GeoEco</a></td><td>Deletes a file.</td></tr><tr><td><a href="File.FindAndCopy.html?format=raw">FileFindAndCopy_GeoEco</a></td><td>Finds and copies files in a directory.</td></tr><tr><td><a href="File.FindAndCreateArcGISTable.html?format=raw">FileFindAndCreateArcGISTable_GeoEco</a></td><td>Finds files within a directory and creates a table that lists them.</td></tr><tr><td><a href="File.FindAndDelete.html?format=raw">FileFindAndDelete_GeoEco</a></td><td>Finds and deletes files in a directory.</td></tr><tr><td><a href="File.FindAndMove.html?format=raw">FileFindAndMove_GeoEco</a></td><td>Finds and moves files in a directory.</td></tr><tr><td><a href="File.IsDecompressible.html?format=raw">FileIsDecompressible_GeoEco</a></td><td>Returns True if the specified file is in a format that can be decompressed.</td></tr><tr><td><a href="File.MoveArcGISTable.html?format=raw">FileMoveArcGISTable_GeoEco</a></td><td>Moves the files listed in a table.</td></tr><tr><td><a href="File.Move.html?format=raw">FileMove_GeoEco</a></td><td>Moves a file.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">FisheryPeriodicityAnalyzeCPUEInArcGISTable_GeoEco</a></td><td>Creates several plots that analyze the temporal periodicity of catch per unit effort (CPUE) calculated from fishing records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeCatchInArcGISTable.html?format=raw">FisheryPeriodicityAnalyzeCatchInArcGISTable_GeoEco</a></td><td>Creates several plots that show the temporal periodicity of catch records in a table.</td></tr><tr><td><a href="FisheryPeriodicity.AnalyzeEffortInArcGISTable.html?format=raw">FisheryPeriodicityAnalyzeEffortInArcGISTable_GeoEco</a></td><td>Creates several plots that show the temporal periodicity of fishing effort records in a table.</td></tr><tr><td><a href="GAM.FitToArcGISTable.html?format=raw">GAMFitToArcGISTable_GeoEco</a></td><td>Fits a generalized additive model (GAM) to data in a table.</td></tr><tr><td><a href="GAM.PredictFromArcGISRasters.html?format=raw">GAMPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted generalized additive model (GAM), this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="GAM.PredictFromArcGISTable.html?format=raw">GAMPredictFromArcGISTable_GeoEco</a></td><td>Given a fitted generalized additive model (GAM), this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="GHRSSTLevel4.CreateArcGISRasters.html?format=raw">GHRSSTLevel4CreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a GHRSST L4 product hosted by NASA JPL PO.DAAC.</td></tr><tr><td><a href="GHRSSTLevel4.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">GHRSSTLevel4CreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in GHRSST L4 SST images hosted by NASA JPL PO.DAAC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="GHRSSTLevel4.CreateClimatologicalArcGISRasters.html?format=raw">GHRSSTLevel4CreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a GHRSST L4 product hosted by NASA JPL PO.DAAC.</td></tr><tr><td><a href="GHRSSTLevel4.InterpolateAtArcGISPoints.html?format=raw">GHRSSTLevel4InterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates values of a GHRSST L4 product hosted by NASA JPL PO.DAAC at points.</td></tr><tr><td><a href="GLM.FitToArcGISTable.html?format=raw">GLMFitToArcGISTable_GeoEco</a></td><td>Fits a generalized linear model (GLM) to data in a table using the R glm function.</td></tr><tr><td><a href="GLM.PredictFromArcGISRasters.html?format=raw">GLMPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted generalized linear model (GLM), this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="GLM.PredictFromArcGISTable.html?format=raw">GLMPredictFromArcGISTable_GeoEco</a></td><td>Given a fitted generalized linear model (GLM), this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="HDF.ExtractHeaderArcGISTable.html?format=raw">HDFExtractHeaderArcGISTable_GeoEco</a></td><td>Extracts the headers of HDF files in a table and saves them to text files.</td></tr><tr><td><a href="HDF.ExtractHeader.html?format=raw">HDFExtractHeader_GeoEco</a></td><td>Extracts the header of an HDF file and saves it to a text file.</td></tr><tr><td><a href="HDF.FindAndConvertToArcGISRasters.html?format=raw">HDFFindAndConvertToArcGISRasters_GeoEco</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to an ArcGIS raster.</td></tr><tr><td><a href="HDF.FindAndConvertToArcInfoASCIIGrids.html?format=raw">HDFFindAndConvertToArcInfoASCIIGrids_GeoEco</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.FindAndConvertToBinaryRasters.html?format=raw">HDFFindAndConvertToBinaryRasters_GeoEco</a></td><td>Finds HDF files in a directory and converts a Scientific Data Sets (SDS) in each file to a binary raster.</td></tr><tr><td><a href="HDF.FindAndExtractHeaders.html?format=raw">HDFFindAndExtractHeaders_GeoEco</a></td><td>Finds HDF files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="HDF.SDSToArcGISRaster.html?format=raw">HDFSDSToArcGISRaster_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to an ArcGIS raster.</td></tr><tr><td><a href="HDF.SDSToArcInfoASCIIGrid.html?format=raw">HDFSDSToArcInfoASCIIGrid_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.SDSToBinaryRaster.html?format=raw">HDFSDSToBinaryRaster_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in an HDF file to a binary raster.</td></tr><tr><td><a href="HDF.ToArcGISRasterArcGISTable.html?format=raw">HDFToArcGISRasterArcGISTable_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to an ArcGIS raster.</td></tr><tr><td><a href="HDF.ToArcInfoASCIIGridArcGISTable.html?format=raw">HDFToArcInfoASCIIGridArcGISTable_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to a text file in an ArcInfo ASCII Grid format.</td></tr><tr><td><a href="HDF.ToBinaryRasterArcGISTable.html?format=raw">HDFToBinaryRasterArcGISTable_GeoEco</a></td><td>Converts a Scientific Data Set (SDS) in each HDF file in a table to a binary raster.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.CreateArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial3DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a 3D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.CreateClimatologicalArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial3DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a 3D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset</td></tr><tr><td><a href="HYCOMGLBa008Equatorial3D.InterpolateAtArcGISPoints.html?format=raw">HYCOMGLBa008Equatorial3DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates 3D variables of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset at points.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial4DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial4DCreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in the 2D slices of a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateClimatologicalArcGISRasters.html?format=raw">HYCOMGLBa008Equatorial4DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a 4D variable of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.CreateCurrentVectorsAsArcGISFeatureClasses.html?format=raw">HYCOMGLBa008Equatorial4DCreateCurrentVectorsAsArcGISFeatureClasses_GeoEco</a></td><td>Creates line feature classes representing the current vectors for the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset.</td></tr><tr><td><a href="HYCOMGLBa008Equatorial4D.InterpolateAtArcGISPoints.html?format=raw">HYCOMGLBa008Equatorial4DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates 4D variables of the equatorial (Mercator) region of the HYCOM GLBa0.08 dataset at points.</td></tr><tr><td><a href="HYCOMGOMl0043D.CreateArcGISRasters.html?format=raw">HYCOMGOMl0043DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a HYCOM GOMl0.04 3D variable.</td></tr><tr><td><a href="HYCOMGOMl0043D.CreateClimatologicalArcGISRasters.html?format=raw">HYCOMGOMl0043DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a HYCOM GOMl0.04 3D variable</td></tr><tr><td><a href="HYCOMGOMl0043D.InterpolateAtArcGISPoints.html?format=raw">HYCOMGOMl0043DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates HYCOM GOMl0.04 3D variables at points.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateArcGISRasters.html?format=raw">HYCOMGOMl0044DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a HYCOM GOMl0.04 4D variable.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">HYCOMGOMl0044DCreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in the 2D slices of a HYCOM GOMl0.04 4D variable using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateClimatologicalArcGISRasters.html?format=raw">HYCOMGOMl0044DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a HYCOM GOMl0.04 4D variable</td></tr><tr><td><a href="HYCOMGOMl0044D.CreateCurrentVectorsAsArcGISFeatureClasses.html?format=raw">HYCOMGOMl0044DCreateCurrentVectorsAsArcGISFeatureClasses_GeoEco</a></td><td>Creates line feature classes representing the vectors of HYCOM GOMl0.04 currents.</td></tr><tr><td><a href="HYCOMGOMl0044D.InterpolateAtArcGISPoints.html?format=raw">HYCOMGOMl0044DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates HYCOM GOMl0.04 4D variables at points.</td></tr><tr><td><a href="Interpolator.FindAndInpaintArcGISRasters.html?format=raw">InterpolatorFindAndInpaintArcGISRasters_GeoEco</a></td><td>Finds rasters in an ArcGIS workspace and interpolates values for the No Data cells.</td></tr><tr><td><a href="Interpolator.InpaintArcGISRasterArcGISTable.html?format=raw">InterpolatorInpaintArcGISRasterArcGISTable_GeoEco</a></td><td>Interpolates values for the No Data cells for each ArcGIS raster in a table.</td></tr><tr><td><a href="Interpolator.InpaintArcGISRaster.html?format=raw">InterpolatorInpaintArcGISRaster_GeoEco</a></td><td>Interpolates values for the No Data cells of a raster.</td></tr><tr><td><a href="Interpolator.InterpolateArcGISRasterValuesAtPoints.html?format=raw">InterpolatorInterpolateArcGISRasterValuesAtPoints_GeoEco</a></td><td>Interpolates the values of rasters at points.</td></tr><tr><td><a href="LinearMixedModel.FitToArcGISTable.html?format=raw">LinearMixedModelFitToArcGISTable_GeoEco</a></td><td>Fits a linear mixed-effects model to data in a table.</td></tr><tr><td><a href="LinearMixedModel.PredictFromArcGISRasters.html?format=raw">LinearMixedModelPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted linear mixed model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateArcGISRasters.html?format=raw">MODISL3SSTTimeSeriesCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for MODIS Level 3 SST images published by NASA JPL PO.DAAC.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateCayulaCornillonFrontsAsArcGISRasters.html?format=raw">MODISL3SSTTimeSeriesCreateCayulaCornillonFrontsAsArcGISRasters_GeoEco</a></td><td>Creates rasters indicating the positions of fronts in MODIS Level 3 SST images published by NASA JPL PO.DAAC, using the Cayula and Cornillon (1992) single image edge detection (SIED) algorithm.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">MODISL3SSTTimeSeriesCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters from MODIS Level 3 SST images published by NASA JPL PO.DAAC.</td></tr><tr><td><a href="MODISL3SSTTimeSeries.InterpolateAtArcGISPoints.html?format=raw">MODISL3SSTTimeSeriesInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates PO.DAAC MODIS Level 3 SST values at points.</td></tr><tr><td><a href="ModelEvaluation.RandomlySplitArcGISTableIntoTrainingAndTestRecords.html?format=raw">ModelEvaluationRandomlySplitArcGISTableIntoTrainingAndTestRecords_GeoEco</a></td><td>Randomly designates the records of a table as either training records (for fitting a predictive model) or test records (for evaluating the model).</td></tr><tr><td><a href="Moon.CalculateMoonPhaseForArcGISTable.html?format=raw">MoonCalculateMoonPhaseForArcGISTable_GeoEco</a></td><td>Given a table with a date field, calculates the phase of the moon and writes it to another field.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToArcGISRasters.html?format=raw">NetCDFConvert2DVariableInNetCDFsInArcGISTableToArcGISRasters_GeoEco</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToArcInfoASCIIGrids.html?format=raw">NetCDFConvert2DVariableInNetCDFsInArcGISTableToArcInfoASCIIGrids_GeoEco</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.Convert2DVariableInNetCDFsInArcGISTableToBinaryRasters.html?format=raw">NetCDFConvert2DVariableInNetCDFsInArcGISTableToBinaryRasters_GeoEco</a></td><td>Converts a two-dimensional variable in each netCDF file in a table to a binary raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToArcGISRaster.html?format=raw">NetCDFConvert2DVariableToArcGISRaster_GeoEco</a></td><td>Converts a two-dimensional variable in a netCDF file to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToArcInfoASCIIGrid.html?format=raw">NetCDFConvert2DVariableToArcInfoASCIIGrid_GeoEco</a></td><td>Converts a two-dimensional variable in a netCDF file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.Convert2DVariableToBinaryRaster.html?format=raw">NetCDFConvert2DVariableToBinaryRaster_GeoEco</a></td><td>Converts a two-dimensional variable in a netCDF file to a binary raster.</td></tr><tr><td><a href="NetCDF.ExtractHeaderArcGISTable.html?format=raw">NetCDFExtractHeaderArcGISTable_GeoEco</a></td><td>Extracts the headers of netCDF files in a table and saves them to text files.</td></tr><tr><td><a href="NetCDF.ExtractHeader.html?format=raw">NetCDFExtractHeader_GeoEco</a></td><td>Extracts the header of a netCDF file and saves it to a text file.</td></tr><tr><td><a href="NetCDF.FindAndExtractHeaders.html?format=raw">NetCDFFindAndExtractHeaders_GeoEco</a></td><td>Finds netCDF files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToArcGISRasters.html?format=raw">NetCDFFindNetCDFsAndConvert2DVariableToArcGISRasters_GeoEco</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to an ArcGIS raster.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToArcInfoASCIIGrids.html?format=raw">NetCDFFindNetCDFsAndConvert2DVariableToArcInfoASCIIGrids_GeoEco</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="NetCDF.FindNetCDFsAndConvert2DVariableToBinaryRasters.html?format=raw">NetCDFFindNetCDFsAndConvert2DVariableToBinaryRasters_GeoEco</a></td><td>Finds netCDF files in a directory and converts a two-dimensional variable in each file to a binary raster.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateArcGISRasters.html?format=raw">OSCAR5DayThirdDegreeCurrentsCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateClimatologicalArcGISRasters.html?format=raw">OSCAR5DayThirdDegreeCurrentsCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.CreateVectorsAsArcGISFeatureClasses.html?format=raw">OSCAR5DayThirdDegreeCurrentsCreateVectorsAsArcGISFeatureClasses_GeoEco</a></td><td>Creates line feature classes representing the vectors of NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents.</td></tr><tr><td><a href="OSCAR5DayThirdDegreeCurrents.InterpolateAtArcGISPoints.html?format=raw">OSCAR5DayThirdDegreeCurrentsInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of NOAA OSCAR 5-day unfiltered 1/3 degree ocean surface currents at points.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.CreateArcGISRasters.html?format=raw">OceanColorLevel3SMITimeSeriesCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.CreateClimatologicalArcGISRasters.html?format=raw">OceanColorLevel3SMITimeSeriesCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group.</td></tr><tr><td><a href="OceanColorLevel3SMITimeSeries.InterpolateAtArcGISPoints.html?format=raw">OceanColorLevel3SMITimeSeriesInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates the values of a Level 3 Standard Mapped Image (SMI) product published by the NASA GSFC OceanColor Group at points.</td></tr><tr><td><a href="Periodicity.AnalyzeArcGISTable.html?format=raw">PeriodicityAnalyzeArcGISTable_GeoEco</a></td><td>Creates several plots that show the temporal periodicity of the records in a table.</td></tr><tr><td><a href="R.EvaluateFile.html?format=raw">REvaluateFile_GeoEco</a></td><td>Evalutes the R statements in a text file using the R interpreter and returns the result of the last statement.</td></tr><tr><td><a href="R.Evaluate.html?format=raw">REvaluate_GeoEco</a></td><td>Evalutes one or more R statements using the R interpreter and returns the result of the last statement.</td></tr><tr><td><a href="RExploratoryPlots.ClevelandPlotForArcGISTable.html?format=raw">RExploratoryPlotsClevelandPlotForArcGISTable_GeoEco</a></td><td>Creates a multi-panel Cleveland dotplot for a table.</td></tr><tr><td><a href="RExploratoryPlots.DensityHistogramForArcGISField.html?format=raw">RExploratoryPlotsDensityHistogramForArcGISField_GeoEco</a></td><td>Creates a density histogram for a field of a table.</td></tr><tr><td><a href="RExploratoryPlots.DensityHistogramForArcGISPointsCoordinates.html?format=raw">RExploratoryPlotsDensityHistogramForArcGISPointsCoordinates_GeoEco</a></td><td>Creates a density histogram for one of the coordinates of a point feature class or layer.</td></tr><tr><td><a href="RExploratoryPlots.ScatterplotMatrixForArcGISTable.html?format=raw">RExploratoryPlotsScatterplotMatrixForArcGISTable_GeoEco</a></td><td>Creates a matrix of scatterplots for a table using the R pairs function.</td></tr><tr><td><a href="ROMSCoSiNE2D.CreateArcGISRaster.html?format=raw">ROMSCoSiNE2DCreateArcGISRaster_GeoEco</a></td><td>Creates a raster for a Pacific ROMS-CoSiNE 2D variable.</td></tr><tr><td><a href="ROMSCoSiNE2D.InterpolateAtArcGISPoints.html?format=raw">ROMSCoSiNE2DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates a Pacific ROMS-CoSiNE 2D variable at points.</td></tr><tr><td><a href="ROMSCoSiNE3D.CreateArcGISRasters.html?format=raw">ROMSCoSiNE3DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a Pacific ROMS-CoSiNE 3D variable.</td></tr><tr><td><a href="ROMSCoSiNE3D.CreateClimatologicalArcGISRasters.html?format=raw">ROMSCoSiNE3DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a Pacific ROMS-CoSiNE 3D variable</td></tr><tr><td><a href="ROMSCoSiNE3D.InterpolateAtArcGISPoints.html?format=raw">ROMSCoSiNE3DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates Pacific ROMS-CoSiNE 3D variables at points.</td></tr><tr><td><a href="ROMSCoSiNE4D.CreateArcGISRasters.html?format=raw">ROMSCoSiNE4DCreateArcGISRasters_GeoEco</a></td><td>Creates rasters for a Pacific ROMS-CoSiNE 4D variable.</td></tr><tr><td><a href="ROMSCoSiNE4D.CreateClimatologicalArcGISRasters.html?format=raw">ROMSCoSiNE4DCreateClimatologicalArcGISRasters_GeoEco</a></td><td>Creates climatological rasters for a Pacific ROMS-CoSiNE 4D variable</td></tr><tr><td><a href="ROMSCoSiNE4D.InterpolateAtArcGISPoints.html?format=raw">ROMSCoSiNE4DInterpolateAtArcGISPoints_GeoEco</a></td><td>Interpolates Pacific ROMS-CoSiNE 4D variables at points.</td></tr><tr><td><a href="RandomForestModel.FitToArcGISTable.html?format=raw">RandomForestModelFitToArcGISTable_GeoEco</a></td><td>Fits a random forest model to data in a table.</td></tr><tr><td><a href="RandomForestModel.PredictFromArcGISRasters.html?format=raw">RandomForestModelPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted random forest model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="RandomForestModel.PredictFromArcGISTable.html?format=raw">RandomForestModelPredictFromArcGISTable_GeoEco</a></td><td>Given a random forest model, this tool predicts the response variable for each row of a table.</td></tr><tr><td><a href="SIRFile.ExtractHeaderArcGISTable.html?format=raw">SIRFileExtractHeaderArcGISTable_GeoEco</a></td><td>Extracts the headers of SIR files in a table and saves them to text files.</td></tr><tr><td><a href="SIRFile.ExtractHeader.html?format=raw">SIRFileExtractHeader_GeoEco</a></td><td>Extracts the header of a SIR file.</td></tr><tr><td><a href="SIRFile.FindAndConvertToArcGISRasters.html?format=raw">SIRFileFindAndConvertToArcGISRasters_GeoEco</a></td><td>Finds SIR files in a directory and converts them to ArcGIS rasters.</td></tr><tr><td><a href="SIRFile.FindAndConvertToArcInfoASCIIGrids.html?format=raw">SIRFileFindAndConvertToArcInfoASCIIGrids_GeoEco</a></td><td>Finds SIR files in a directory and converts them to text files in ArcInfo ASCII grid format.</td></tr><tr><td><a href="SIRFile.FindAndConvertToBinaryRasters.html?format=raw">SIRFileFindAndConvertToBinaryRasters_GeoEco</a></td><td>Finds SIR files in a directory and converts them to binary rasters.</td></tr><tr><td><a href="SIRFile.FindAndExtractHeaders.html?format=raw">SIRFileFindAndExtractHeaders_GeoEco</a></td><td>Finds SIR files in a directory, extracts their headers, and saves the headers to text files.</td></tr><tr><td><a href="SIRFile.ToArcGISRasterArcGISTable.html?format=raw">SIRFileToArcGISRasterArcGISTable_GeoEco</a></td><td>Converts each SIR file in a table to an ArcGIS raster.</td></tr><tr><td><a href="SIRFile.ToArcGISRaster.html?format=raw">SIRFileToArcGISRaster_GeoEco</a></td><td>Converts a SIR file to an ArcGIS raster.</td></tr><tr><td><a href="SIRFile.ToArcInfoASCIIGridArcGISTable.html?format=raw">SIRFileToArcInfoASCIIGridArcGISTable_GeoEco</a></td><td>Converts each SIR file in a table to a text file in ArcInfo ASCII grid format.</td></tr><tr><td><a href="SIRFile.ToArcInfoASCIIGrid.html?format=raw">SIRFileToArcInfoASCIIGrid_GeoEco</a></td><td>Converts a SIR file to a text file in ArcInfo ASCII Grid format.</td></tr><tr><td><a href="SIRFile.ToBinaryRasterArcGISTable.html?format=raw">SIRFileToBinaryRasterArcGISTable_GeoEco</a></td><td>Converts each SIR file in a table to a binary raster.</td></tr><tr><td><a href="SIRFile.ToBinaryRaster.html?format=raw">SIRFileToBinaryRaster_GeoEco</a></td><td>Converts a SIR file to a binary raster.</td></tr><tr><td><a href="Shapefile.CopyToDirectory.html?format=raw">ShapefileCopyToDirectory_GeoEco</a></td><td>Copies a shapefile to a directory.</td></tr><tr><td><a href="Shapefile.Copy.html?format=raw">ShapefileCopy_GeoEco</a></td><td>Copies a shapefile.</td></tr><tr><td><a href="SpatiaLiteDatabase.ExportToArcGISWorkspace.html?format=raw">SpatiaLiteDatabaseExportToArcGISWorkspace_GeoEco</a></td><td>Converts tables in a SpatiaLite database to ArcGIS tables, shapefiles, and feature classes.</td></tr><tr><td><a href="SpatiaLiteDatabase.ImportFromArcGISWorkspace.html?format=raw">SpatiaLiteDatabaseImportFromArcGISWorkspace_GeoEco</a></td><td>Converts ArcGIS tables, shapefiles, and feature classes to tables in a SpatiaLite database.</td></tr><tr><td><a href="SpeciesDiversity.CalculateDiversityIndexForArcGISPolygons.html?format=raw">SpeciesDiversityCalculateDiversityIndexForArcGISPolygons_GeoEco</a></td><td>Given polygons representing zones of interest and points representing species occurrence observations, calculates a species diversity index for each polygon.</td></tr><tr><td><a href="Table.ExecuteADOCommandForArcGISTable.html?format=raw">TableExecuteADOCommandForArcGISTable_GeoEco</a></td><td>Opens a Microsoft ActiveX Data Objects (ADO) connection to the database containing a table and executes a command.</td></tr><tr><td><a href="TreeModel.FitToArcGISTable.html?format=raw">TreeModelFitToArcGISTable_GeoEco</a></td><td>Fits a tree model to data in a table.</td></tr><tr><td><a href="TreeModel.PredictFromArcGISRasters.html?format=raw">TreeModelPredictFromArcGISRasters_GeoEco</a></td><td>Using a fitted tree model, this tool creates a raster representing the response variable predicted from rasters representing the predictor variables.</td></tr><tr><td><a href="TreeModel.PredictFromArcGISTable.html?format=raw">TreeModelPredictFromArcGISTable_GeoEco</a></td><td>Given a fitted tree model, this tool predicts the response variable for each row of a table.</td></tr></table></p><h1><a id="Copyright">Copyright and License</a></h1><p>Except where otherwise noted, this document and the Marine Geospatial Ecology
         Tools software is Copyright © 2007 by Jason J. Roberts.</p><p>The terms "MGET" and "GeoEco" are synonymous with, and occasionally used
         instead of, "Marine Geospatial Ecology Tools".</p><p>MGET is free software; you can redistribute it and/or modify it under the

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/AvisoGriddedGeostrophicCurrents.CreateClimatologicalArcGISRasters.html

@@ -70 +70 @@
 bibliography.</p><p>Please see
 <a href="http://www.aviso.oceanobs.com/en/data/tools/citation/index.html">these instructions</a>
-on how to cite Aviso products in your publications.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103142">AvisoGriddedGeostrophicCurrentsCreateClimatologicalArcGISRasters_GeoEco &lt;username&gt; &lt;password&gt; &lt;Black Sea DT-Ref Merged MSLA | Black Sea DT-Upd Merged MSLA | Black Sea NRT (Over 30 Days) Merged MSLA | Global DT-Ref Merged MADT | Global DT-Ref Merged MSLA | Global DT-Upd Merged MADT | Global DT-Upd Merged MSLA | Global NRT (Over 30 Days) Merged MADT | Global NRT (Over 30 Days) Merged MSLA | Mediterranean DT-Ref Merged MADT | Mediterranean DT-Ref Merged MSLA | Mediterranean DT-Upd Merged MADT | Mediterranean DT-Upd Merged MSLA | Mediterranean NRT (Over 30 Days) Merged MADT | Mediterranean NRT (Over 30 Days) Merged MSLA&gt; &lt;dir | ke | mag | u | v&gt; &lt;Daily | Weekly&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;username&gt;</td><td class="info" align="left"><p>Your Aviso username.</p><p>To access Aviso datasets with OPeNDAP, you must first obtain a
+on how to cite Aviso products in your publications.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103142">AvisoGriddedGeostrophicCurrentsCreateClimatologicalArcGISRasters_GeoEco &lt;username&gt; &lt;password&gt; &lt;Black Sea DT-Ref Merged MSLA | Black Sea DT-Upd Merged MSLA | Black Sea NRT (Over 30 Days) Merged MSLA | Global DT-Ref Merged MADT | Global DT-Ref Merged MSLA | Global DT-Upd Merged MADT | Global DT-Upd Merged MSLA | Global NRT (Over 30 Days) Merged MADT | Global NRT (Over 30 Days) Merged MSLA | Mediterranean DT-Ref Merged MADT | Mediterranean DT-Ref Merged MSLA | Mediterranean DT-Upd Merged MADT | Mediterranean DT-Upd Merged MSLA | Mediterranean NRT (Over 30 Days) Merged MADT | Mediterranean NRT (Over 30 Days) Merged MSLA&gt; &lt;dir | ke | mag | u | v&gt; &lt;Daily | Weekly&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;username&gt;</td><td class="info" align="left"><p>Your Aviso username.</p><p>To access Aviso datasets with OPeNDAP, you must first obtain a
 username and password from Aviso. Please see
 <a href="http://www.aviso.oceanobs.com/en/data/">http://www.aviso.oceanobs.com/en/data/</a> for instructions on obtaining a
@@ -114 +114 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -139 +139 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -183 +197 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -189 +204 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -378 +397 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -422 +455 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -428 +462 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/AvisoGriddedSSH.CreateClimatologicalArcGISRasters.html

@@ -70 +70 @@
 bibliography.</p><p>Please see
 <a href="http://www.aviso.oceanobs.com/en/data/tools/citation/index.html">these instructions</a>
-on how to cite Aviso products in your publications.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">AvisoGriddedSSHCreateClimatologicalArcGISRasters_GeoEco &lt;username&gt; &lt;password&gt; &lt;Black Sea DT-Ref Merged MSLA Error | Black Sea DT-Ref Merged MSLA SSH | Black Sea DT-Upd Merged MSLA Error | Black Sea DT-Upd Merged MSLA SSH | Black Sea NRT (Over 30 Days) Merged MSLA Error | Black Sea NRT (Over 30 Days) Merged MSLA SSH | Global DT-Ref Merged MADT SSH | Global DT-Ref Merged MSLA Error | Global DT-Ref Merged MSLA SSH | Global DT-Ref Topex/Poseidon, Jason-1 MSLA Error | Global DT-Ref Topex/Poseidon, Jason-1 MSLA SSH | Global DT-Upd Merged MADT SSH | Global DT-Upd Merged MSLA Error | Global DT-Upd Merged MSLA SSH | Global NRT (Over 30 Days) Merged MADT SSH | Global NRT (Over 30 Days) Merged MSLA Error | Global NRT (Over 30 Days) Merged MSLA SSH | Mediterranean DT-Ref Merged MADT SSH | Mediterranean DT-Ref Merged MSLA Error | Mediterranean DT-Ref Merged MSLA SSH | Mediterranean DT-Upd Merged MADT SSH | Mediterranean DT-Upd Merged MSLA Error | Mediterranean DT-Upd Merged MSLA SSH | Mediterranean NRT (Over 30 Days) Merged MADT SSH | Mediterranean NRT (Over 30 Days) Merged MSLA Error | Mediterranean NRT (Over 30 Days) Merged MSLA SSH&gt; &lt;Daily | Weekly&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;username&gt;</td><td class="info" align="left"><p>Your Aviso username.</p><p>To access Aviso datasets with OPeNDAP, you must first obtain a
+on how to cite Aviso products in your publications.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">AvisoGriddedSSHCreateClimatologicalArcGISRasters_GeoEco &lt;username&gt; &lt;password&gt; &lt;Black Sea DT-Ref Merged MSLA Error | Black Sea DT-Ref Merged MSLA SSH | Black Sea DT-Upd Merged MSLA Error | Black Sea DT-Upd Merged MSLA SSH | Black Sea NRT (Over 30 Days) Merged MSLA Error | Black Sea NRT (Over 30 Days) Merged MSLA SSH | Global DT-Ref Merged MADT SSH | Global DT-Ref Merged MSLA Error | Global DT-Ref Merged MSLA SSH | Global DT-Ref Topex/Poseidon, Jason-1 MSLA Error | Global DT-Ref Topex/Poseidon, Jason-1 MSLA SSH | Global DT-Upd Merged MADT SSH | Global DT-Upd Merged MSLA Error | Global DT-Upd Merged MSLA SSH | Global NRT (Over 30 Days) Merged MADT SSH | Global NRT (Over 30 Days) Merged MSLA Error | Global NRT (Over 30 Days) Merged MSLA SSH | Mediterranean DT-Ref Merged MADT SSH | Mediterranean DT-Ref Merged MSLA Error | Mediterranean DT-Ref Merged MSLA SSH | Mediterranean DT-Upd Merged MADT SSH | Mediterranean DT-Upd Merged MSLA Error | Mediterranean DT-Upd Merged MSLA SSH | Mediterranean NRT (Over 30 Days) Merged MADT SSH | Mediterranean NRT (Over 30 Days) Merged MSLA Error | Mediterranean NRT (Over 30 Days) Merged MSLA SSH&gt; &lt;Daily | Weekly&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;username&gt;</td><td class="info" align="left"><p>Your Aviso username.</p><p>To access Aviso datasets with OPeNDAP, you must first obtain a
 username and password from Aviso. Please see
 <a href="http://www.aviso.oceanobs.com/en/data/">http://www.aviso.oceanobs.com/en/data/</a> for instructions on obtaining a
@@ -102 +102 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -127 +127 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -171 +185 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -177 +192 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -354 +373 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -398 +431 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -404 +438 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/AvisoGriddedSignificantWaveHeight.CreateClimatologicalArcGISRasters.html

@@ -70 +70 @@
 bibliography.</p><p>Please see
 <a href="http://www.aviso.oceanobs.com/en/data/tools/citation/index.html">these instructions</a>
-on how to cite Aviso products in your publications.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103142">AvisoGriddedSignificantWaveHeightCreateClimatologicalArcGISRasters_GeoEco &lt;username&gt; &lt;password&gt; &lt;Global NRT Merged MSWH&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;username&gt;</td><td class="info" align="left"><p>Your Aviso username.</p><p>To access Aviso datasets with OPeNDAP, you must first obtain a
+on how to cite Aviso products in your publications.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103142">AvisoGriddedSignificantWaveHeightCreateClimatologicalArcGISRasters_GeoEco &lt;username&gt; &lt;password&gt; &lt;Global NRT Merged MSWH&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;username&gt;</td><td class="info" align="left"><p>Your Aviso username.</p><p>To access Aviso datasets with OPeNDAP, you must first obtain a
 username and password from Aviso. Please see
 <a href="http://www.aviso.oceanobs.com/en/data/">http://www.aviso.oceanobs.com/en/data/</a> for instructions on obtaining a
@@ -94 +94 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -119 +119 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -163 +177 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -169 +184 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -338 +357 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -382 +415 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -388 +422 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/AvisoGriddedWindSpeedModulus.CreateClimatologicalArcGISRasters.html

@@ -70 +70 @@
 bibliography.</p><p>Please see
 <a href="http://www.aviso.oceanobs.com/en/data/tools/citation/index.html">these instructions</a>
-on how to cite Aviso products in your publications.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">AvisoGriddedWindSpeedModulusCreateClimatologicalArcGISRasters_GeoEco &lt;username&gt; &lt;password&gt; &lt;Global NRT Merged MWIND&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;username&gt;</td><td class="info" align="left"><p>Your Aviso username.</p><p>To access Aviso datasets with OPeNDAP, you must first obtain a
+on how to cite Aviso products in your publications.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">AvisoGriddedWindSpeedModulusCreateClimatologicalArcGISRasters_GeoEco &lt;username&gt; &lt;password&gt; &lt;Global NRT Merged MWIND&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;username&gt;</td><td class="info" align="left"><p>Your Aviso username.</p><p>To access Aviso datasets with OPeNDAP, you must first obtain a
 username and password from Aviso. Please see
 <a href="http://www.aviso.oceanobs.com/en/data/">http://www.aviso.oceanobs.com/en/data/</a> for instructions on obtaining a
@@ -94 +94 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -119 +119 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -163 +177 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -169 +184 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -338 +357 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -382 +415 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -388 +422 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html

@@ -1 +1 @@
 <?xml version="1.0" encoding="utf-8"?>
 <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
-<html xmlns="http://www.w3.org/1999/xhtml"><head><link rel="stylesheet" type="text/css" href="81help.css?format=raw" /><meta http-equiv="Content-Type" content="text/html; charset=UTF-8" /><title>Analyze Temporal Periodocity of CPUE</title></head><body><table style="margin-top:-1em; margin-bottom:0; padding:0; margin-left:-1em"><tr><td style="background:white"><img width="875" height="70" alt="ArcToolbox banner" src="AHBanner_ArcToolbox.gif?format=raw" /></td></tr></table><h1>Analyze Temporal Periodocity of CPUE</h1><p></p><p>Creates several plots that analyze the temporal periodicity of catch per unit effort (FPUE) calculated from fishing records in a table.</p><p>The first plot is a bar plot showing the mean CPUE for a series of
+<html xmlns="http://www.w3.org/1999/xhtml"><head><link rel="stylesheet" type="text/css" href="81help.css?format=raw" /><meta http-equiv="Content-Type" content="text/html; charset=UTF-8" /><title>Analyze Temporal Periodocity of CPUE</title></head><body><table style="margin-top:-1em; margin-bottom:0; padding:0; margin-left:-1em"><tr><td style="background:white"><img width="875" height="70" alt="ArcToolbox banner" src="AHBanner_ArcToolbox.gif?format=raw" /></td></tr></table><h1>Analyze Temporal Periodocity of CPUE</h1><p></p><p>Creates several plots that analyze the temporal periodicity of catch per unit effort (CPUE) calculated from fishing records in a table.</p><p>The first plot is a bar plot showing the mean CPUE for a series of
 equal-duration time bins. If an Effort Field is not specified, the
 effort value is assumed to be 1 for each record.</p><p>The second plot is a periodogram that indicates whether or not a

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/FisheryPeriodicity.AnalyzeCatchInArcGISTable.html

@@ -11 +11 @@
 collection of waves by plotting the period (the inverse of the
 frequency) and the spectral power of each one.</p><p>The spectral power is a measure of the strength of the contribution of
-the wave's contribute to the overall pattern. Important waves appear
-as peaks in the periodogram. When you find a peak, the value of the x
-axis gives the period (in days) of the cycle. In marine ecological
-data, patterns are often observed in relation to solar, lunar, or
-tidal cycles. Solar cycles are indicated by peaks at 365 days (an
-annual cycle) and at 24 hours (a diurnal cycle). Lunar cycles are
-indicated by a peak at 29.5 days. Tidal cycles are more complicated to
-observe, and depend on tidal patterns in the region of interest.</p><p>To interpret the periodogram, look for high spikes at 365 days, 29.5
-days, 1 day, with very low values elsewhere. If you see high spikes at
-one or more of those locations, a solar or lunar cycle is indicated.
-But if those spikes are not very high relative to other periods--if
-the periodogram displays a generally jittery or noisy pattern--then
-solar and lunar cycles may not exist.</p><p>In order for Fourier analysis to detect such patterns, the data must
+the wave to the overall pattern. Important waves appear as peaks in
+the periodogram. When you find a peak, the value of the x axis gives
+the period (in days) of the wave. In marine ecological data, patterns
+are often observed in relation to solar, lunar, or tidal cycles. Solar
+cycles are indicated by peaks at 365 days (an annual cycle) and at 24
+hours (a diurnal cycle). Lunar cycles are indicated by a peak at 29.5
+days. Tidal cycles are more complicated to observe, and depend on
+tidal patterns in the region of interest.</p><p>To interpret the periodogram, look for high spikes at 365 days, 29.5
+days, or 1 day. If you see high spikes at one or more of those
+locations with very low values everywhere else, a solar or lunar cycle
+is indicated. But if those spikes are not very high relative to other
+periods--if the periodogram displays a generally jittery or noisy
+pattern--then solar and lunar cycles may not exist.</p><p>In order for Fourier analysis to detect such patterns, the data must
 span at least two cycles. For example, to detect an annual pattern,
 the data must span at least two years. The results will be much more

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/GHRSSTLevel4.CreateClimatologicalArcGISRasters.html

@@ -33 +33 @@
 hosted by PO.DAAC. If you see a product on PO.DAAC that is not
 available with this tool, please contact the MGET development team for
-assistance.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">GHRSSTLevel4CreateClimatologicalArcGISRasters_GeoEco &lt;ABOM-L4HRfnd-AUS-RAMSSA_09km | ABOM-L4LRfnd-GLOB-GAMSSA_28km | DMI-L4UHfnd-NSEABALTIC-DMI_OI | EUR-L4UHRfnd-MED-ODYSSEA | EUR-L4UHRfnd-NWE-ODYSSEA | JPL-L4UHfnd-GLOB-MUR | JPL_OUROCEAN-L4UHfnd-GLOB-G1SST | NAVO-L4HR1m-GLOB-K10_SST | NCDC-L4LRblend-GLOB-AVHRR_AMSR_OI | NCDC-L4LRblend-GLOB-AVHRR_OI | UKMO-L4HRfnd-GLOB-OSTIA&gt; &lt;analysed_sst | analysis_error&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {convertToCelsius} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;ABOM-L4HRfnd-AUS-RAMSSA_09km | ABOM-L4LRfnd-GLOB-GAMSSA_28km | DMI-L4UHfnd-NSEABALTIC-DMI_OI | EUR-L4UHRfnd-MED-ODYSSEA | EUR-L4UHRfnd-NWE-ODYSSEA | JPL-L4UHfnd-GLOB-MUR | JPL_OUROCEAN-L4UHfnd-GLOB-G1SST | NAVO-L4HR1m-GLOB-K10_SST | NCDC-L4LRblend-GLOB-AVHRR_AMSR_OI | NCDC-L4LRblend-GLOB-AVHRR_OI | UKMO-L4HRfnd-GLOB-OSTIA&gt;</td><td class="info" align="left"><p>GHRSST L4 product to access. Currently, the following products are
+assistance.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">GHRSSTLevel4CreateClimatologicalArcGISRasters_GeoEco &lt;ABOM-L4HRfnd-AUS-RAMSSA_09km | ABOM-L4LRfnd-GLOB-GAMSSA_28km | DMI-L4UHfnd-NSEABALTIC-DMI_OI | EUR-L4UHRfnd-MED-ODYSSEA | EUR-L4UHRfnd-NWE-ODYSSEA | JPL-L4UHfnd-GLOB-MUR | JPL_OUROCEAN-L4UHfnd-GLOB-G1SST | NAVO-L4HR1m-GLOB-K10_SST | NCDC-L4LRblend-GLOB-AVHRR_AMSR_OI | NCDC-L4LRblend-GLOB-AVHRR_OI | UKMO-L4HRfnd-GLOB-OSTIA&gt; &lt;analysed_sst | analysis_error&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {convertToCelsius} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;ABOM-L4HRfnd-AUS-RAMSSA_09km | ABOM-L4LRfnd-GLOB-GAMSSA_28km | DMI-L4UHfnd-NSEABALTIC-DMI_OI | EUR-L4UHRfnd-MED-ODYSSEA | EUR-L4UHRfnd-NWE-ODYSSEA | JPL-L4UHfnd-GLOB-MUR | JPL_OUROCEAN-L4UHfnd-GLOB-G1SST | NAVO-L4HR1m-GLOB-K10_SST | NCDC-L4LRblend-GLOB-AVHRR_AMSR_OI | NCDC-L4LRblend-GLOB-AVHRR_OI | UKMO-L4HRfnd-GLOB-OSTIA&gt;</td><td class="info" align="left"><p>GHRSST L4 product to access. Currently, the following products are
 supported:</p><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/ABOM-L4HRfnd-AUS-RAMSSA_09km">ABOM-L4HRfnd-AUS-RAMSSA_09km</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/ABOM-L4LRfnd-GLOB-GAMSSA_28km">ABOM-L4LRfnd-GLOB-GAMSSA_28km</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/DMI-L4UHfnd-NSEABALTIC-DMI_OI">DMI-L4UHfnd-NSEABALTIC-DMI_OI</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/EUR-L4UHRfnd-MED-ODYSSEA">EUR-L4UHRfnd-MED-ODYSSEA</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/EUR-L4UHRfnd-NWE-ODYSSEA">EUR-L4UHRfnd-NWE-ODYSSEA</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/JPL-L4UHfnd-GLOB-MUR">JPL-L4UHfnd-GLOB-MUR</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/JPL_OUROCEAN-L4UHfnd-GLOB-G1SST">JPL_OUROCEAN-L4UHfnd-GLOB-G1SST</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/NAVO-L4HR1m-GLOB-K10_SST">NAVO-L4HR1m-GLOB-K10_SST</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/NCDC-L4LRblend-GLOB-AVHRR_AMSR_OI">NCDC-L4LRblend-GLOB-AVHRR_AMSR_OI</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/NCDC-L4LRblend-GLOB-AVHRR_OI">NCDC-L4LRblend-GLOB-AVHRR_OI</a>.</p></li></ul><ul><li><p><a href="http://podaac.jpl.nasa.gov/dataset/UKMO-L4HRfnd-GLOB-OSTIA">UKMO-L4HRfnd-GLOB-OSTIA</a>.</p></li></ul><p>All products use the WGS 1984 geographic coordinate system and are
 published at a daily timestep. Some products are updated on a
@@ -51 +51 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -76 +76 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -116 +130 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -122 +137 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -280 +299 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -320 +353 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -326 +360 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/HYCOMGLBa008Equatorial3D.CreateClimatologicalArcGISRasters.html

@@ -62 +62 @@
 Model (HYCOM). Oceanography, 22, 64-75.</p><p>The HYCOM User's Guide and many other technical documents are
 available on the
-<a href="http://www.hycom.org/hycom/documentation">HYCOM web site</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">HYCOMGLBa008Equatorial3DCreateClimatologicalArcGISRasters_GeoEco &lt;emp | mld | mlp | qtot | ssh | surface_salinity_trend | surface_temperature_trend&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {extendYExtent} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;emp | mld | mlp | qtot | ssh | surface_salinity_trend | surface_temperature_trend&gt;</td><td class="info" align="left"><p>HYCOM 3D variable (dimensions x, y, and time), one of:</p><ul><li><p>emp - Water flux into the ocean, in kg/m^2/s.</p></li></ul><ul><li><p>mld - Mixed layer thickness, in m, defined as the depth at which the
+<a href="http://www.hycom.org/hycom/documentation">HYCOM web site</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">HYCOMGLBa008Equatorial3DCreateClimatologicalArcGISRasters_GeoEco &lt;emp | mld | mlp | qtot | ssh | surface_salinity_trend | surface_temperature_trend&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {extendYExtent} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;emp | mld | mlp | qtot | ssh | surface_salinity_trend | surface_temperature_trend&gt;</td><td class="info" align="left"><p>HYCOM 3D variable (dimensions x, y, and time), one of:</p><ul><li><p>emp - Water flux into the ocean, in kg/m^2/s.</p></li></ul><ul><li><p>mld - Mixed layer thickness, in m, defined as the depth at which the
 temperature change from the surface temperature is 0.2 degrees C.</p></li></ul><ul><li><p>mlp - Mixed layer thickness, in m, defined as the depth at which the
 pressure change from the surface pressure is 0.03 kg/m^3.</p></li></ul><ul><li><p>qtot - Surface downward heat flux, in W/m^2.</p></li></ul><ul><li><p>ssh - Sea surface height, in m, above the HYCOM reference spheroid.</p></li></ul><ul><li><p>surface_salinity_trend - Surface salinity trend, in psu/day.</p></li></ul><ul><li><p>surface_temperature_trend - Surface temperature trend, in degrees
@@ -71 +71 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -96 +96 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -125 +139 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -131 +146 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -294 +313 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -323 +356 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -329 +363 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/HYCOMGLBa008Equatorial4D.CreateClimatologicalArcGISRasters.html

@@ -63 +63 @@
 Model (HYCOM). Oceanography, 22, 64-75.</p><p>The HYCOM User's Guide and many other technical documents are
 available on the
-<a href="http://www.hycom.org/hycom/documentation">HYCOM web site</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">HYCOMGLBa008Equatorial4DCreateClimatologicalArcGISRasters_GeoEco &lt;salinity | temperature | u | v&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {extendYExtent} {spatialExtent} {Degrees | Meters} {minDepth} {maxDepth} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;salinity | temperature | u | v&gt;</td><td class="info" align="left"><p>HYCOM 4D variable (dimensions x, y, depth, and time), one of:</p><ul><li><p>salinity - Sea water salinity, in psu.</p></li></ul><ul><li><p>temperature - Sea water potential temperature, in degrees C.</p></li></ul><ul><li><p>u - Eastward sea water velocity, in m/s.</p></li></ul><ul><li><p>v - Northward sea water velocity, in m/s.</p></li></ul><p>Please see the HYCOM documentation for more information about these
+<a href="http://www.hycom.org/hycom/documentation">HYCOM web site</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">HYCOMGLBa008Equatorial4DCreateClimatologicalArcGISRasters_GeoEco &lt;salinity | temperature | u | v&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {extendYExtent} {spatialExtent} {Degrees | Meters} {minDepth} {maxDepth} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;salinity | temperature | u | v&gt;</td><td class="info" align="left"><p>HYCOM 4D variable (dimensions x, y, depth, and time), one of:</p><ul><li><p>salinity - Sea water salinity, in psu.</p></li></ul><ul><li><p>temperature - Sea water potential temperature, in degrees C.</p></li></ul><ul><li><p>u - Eastward sea water velocity, in m/s.</p></li></ul><ul><li><p>v - Northward sea water velocity, in m/s.</p></li></ul><p>Please see the HYCOM documentation for more information about these
 variables.</p></td></tr><tr><td class="info">&lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt;</td><td class="info" align="left"><p>Statistic to calculate for each cell, one of:</p><ul><li><p>Count - number of images in which the cell had data.</p></li></ul><ul><li><p>Maximum - maximum value for the cell.</p></li></ul><ul><li><p>Mean - mean value for the cell, calculated as the sum divided by the
 count.</p></li></ul><ul><li><p>Minimum - minimum value for the cell.</p></li></ul><ul><li><p>Range - range for the cell, calculated as the maximum minus the
@@ -69 +69 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -94 +94 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -123 +137 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -129 +144 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -308 +327 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -337 +370 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -343 +377 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/HYCOMGOMl0043D.CreateClimatologicalArcGISRasters.html

@@ -55 +55 @@
 Model (HYCOM). Oceanography 22: 64-75.</p><p>The HYCOM User's Guide and many other technical documents are
 available on the
-<a href="http://www.hycom.org/hycom/documentation">HYCOM web site</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">HYCOMGOMl0043DCreateClimatologicalArcGISRasters_GeoEco &lt;emp | mld | mlp | qtot | ssh | surface_salinity_trend | surface_temperature_trend&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;emp | mld | mlp | qtot | ssh | surface_salinity_trend | surface_temperature_trend&gt;</td><td class="info" align="left"><p>HYCOM 3D variable (dimensions x, y, and time), one of:</p><ul><li><p>emp - Water flux into the ocean, in kg/m^2/s.</p></li></ul><ul><li><p>mld - Mixed layer thickness, in m, defined as the depth at which the
+<a href="http://www.hycom.org/hycom/documentation">HYCOM web site</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">HYCOMGOMl0043DCreateClimatologicalArcGISRasters_GeoEco &lt;emp | mld | mlp | qtot | ssh | surface_salinity_trend | surface_temperature_trend&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;emp | mld | mlp | qtot | ssh | surface_salinity_trend | surface_temperature_trend&gt;</td><td class="info" align="left"><p>HYCOM 3D variable (dimensions x, y, and time), one of:</p><ul><li><p>emp - Water flux into the ocean, in kg/m^2/s.</p></li></ul><ul><li><p>mld - Mixed layer thickness, in m, defined as the depth at which the
 temperature change from the surface temperature is 0.2 degrees C.</p></li></ul><ul><li><p>mlp - Mixed layer thickness, in m, defined as the depth at which the
 pressure change from the surface pressure is 0.03 kg/m^3.</p></li></ul><ul><li><p>qtot - Surface downward heat flux, in W/m^2.</p></li></ul><ul><li><p>ssh - Sea surface height, in m, above the HYCOM reference spheroid.</p></li></ul><ul><li><p>surface_salinity_trend - Surface salinity trend, in psu/day.</p></li></ul><ul><li><p>surface_temperature_trend - Surface temperature trend, in degrees
@@ -64 +64 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -89 +89 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -118 +132 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -124 +139 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -264 +283 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -293 +326 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -299 +333 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/HYCOMGOMl0044D.CreateClimatologicalArcGISRasters.html

@@ -56 +56 @@
 Model (HYCOM). Oceanography 22: 64-75.</p><p>The HYCOM User's Guide and many other technical documents are
 available on the
-<a href="http://www.hycom.org/hycom/documentation">HYCOM web site</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">HYCOMGOMl0044DCreateClimatologicalArcGISRasters_GeoEco &lt;salinity | temperature | u | v | w_velocity&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {spatialExtent} {Degrees | Meters} {minDepth} {maxDepth} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;salinity | temperature | u | v | w_velocity&gt;</td><td class="info" align="left"><p>HYCOM 4D variable (dimensions x, y, depth, and time), one of:</p><ul><li><p>salinity - Sea water salinity, in psu.</p></li></ul><ul><li><p>temperature - Sea water potential temperature, in degrees C.</p></li></ul><ul><li><p>u - Eastward sea water velocity, in m/s.</p></li></ul><ul><li><p>v - Northward sea water velocity, in m/s.</p></li></ul><ul><li><p>w_velocity - Upward sea water velocity, in m/s.</p></li></ul><p>Please see the HYCOM documentation for more information about these
+<a href="http://www.hycom.org/hycom/documentation">HYCOM web site</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">HYCOMGOMl0044DCreateClimatologicalArcGISRasters_GeoEco &lt;salinity | temperature | u | v | w_velocity&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {spatialExtent} {Degrees | Meters} {minDepth} {maxDepth} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;salinity | temperature | u | v | w_velocity&gt;</td><td class="info" align="left"><p>HYCOM 4D variable (dimensions x, y, depth, and time), one of:</p><ul><li><p>salinity - Sea water salinity, in psu.</p></li></ul><ul><li><p>temperature - Sea water potential temperature, in degrees C.</p></li></ul><ul><li><p>u - Eastward sea water velocity, in m/s.</p></li></ul><ul><li><p>v - Northward sea water velocity, in m/s.</p></li></ul><ul><li><p>w_velocity - Upward sea water velocity, in m/s.</p></li></ul><p>Please see the HYCOM documentation for more information about these
 variables.</p></td></tr><tr><td class="info">&lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt;</td><td class="info" align="left"><p>Statistic to calculate for each cell, one of:</p><ul><li><p>Count - number of images in which the cell had data.</p></li></ul><ul><li><p>Maximum - maximum value for the cell.</p></li></ul><ul><li><p>Mean - mean value for the cell, calculated as the sum divided by the
 count.</p></li></ul><ul><li><p>Minimum - minimum value for the cell.</p></li></ul><ul><li><p>Range - range for the cell, calculated as the maximum minus the
@@ -62 +62 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -87 +87 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -116 +130 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -122 +137 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -278 +297 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -307 +340 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -313 +347 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/MODISL3SSTTimeSeries.CreateClimatologicalArcGISRasters.html

@@ -18 +18 @@
 provides more information about the MODIS SST datasets.</p><p>Please see
 <a href="http://podaac.jpl.nasa.gov/WEB_INFO/citations.html">these instructions</a>
-on how to acknowledge your use of PO.DAAC products.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">MODISL3SSTTimeSeriesCreateClimatologicalArcGISRasters_GeoEco &lt;Aqua | Terra&gt; &lt;Daily | 8day | Monthly | Annual&gt; &lt;4km | 9km&gt; &lt;SST | NSST | SST4&gt; &lt;l3m_data | l3m_qual&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {0 | 1 | 2} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;Aqua | Terra&gt;</td><td class="info" align="left"><p>MODIS satellite to use, one of:</p><ul><li><p>Aqua - the Aqua datasets start in July 2002.</p></li></ul><ul><li><p>Terra - the Terra datasets start in February 2000.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | 8day | Monthly | Annual&gt;</td><td class="info" align="left"><p>Temporal resolution to use, one of:</p><ul><li><p>Daily - daily images. There are 365 during normal years and 366
+on how to acknowledge your use of PO.DAAC products.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">MODISL3SSTTimeSeriesCreateClimatologicalArcGISRasters_GeoEco &lt;Aqua | Terra&gt; &lt;Daily | 8day | Monthly | Annual&gt; &lt;4km | 9km&gt; &lt;SST | NSST | SST4&gt; &lt;l3m_data | l3m_qual&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {0 | 1 | 2} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;Aqua | Terra&gt;</td><td class="info" align="left"><p>MODIS satellite to use, one of:</p><ul><li><p>Aqua - the Aqua datasets start in July 2002.</p></li></ul><ul><li><p>Terra - the Terra datasets start in February 2000.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | 8day | Monthly | Annual&gt;</td><td class="info" align="left"><p>Temporal resolution to use, one of:</p><ul><li><p>Daily - daily images. There are 365 during normal years and 366
 during leap years.</p></li></ul><ul><li><p>8day - 8-day images. There are 46 per year. The first image of the
 year starts on January 1. The duration of the last image of the year
@@ -54 +54 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -79 +79 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -124 +138 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -130 +145 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -312 +331 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -357 +390 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -363 +397 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/OSCAR5DayThirdDegreeCurrents.CreateClimatologicalArcGISRasters.html

@@ -26 +26 @@
 (2002) appears to be the seminal OSCAR paper.</p><p>The OSCAR website requests that you acknowledge your use of the data.
 Please see the website for specific instructions (they may appear
-<a href="http://www.oscar.noaa.gov/datadisplay/oscar_datadownload.php">here</a>).</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">OSCAR5DayThirdDegreeCurrentsCreateClimatologicalArcGISRasters_GeoEco &lt;dir | dir_anom | eke | mag | mag_anom | tke | u | v | u_anom | v_anom&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;dir | dir_anom | eke | mag | mag_anom | tke | u | v | u_anom | v_anom&gt;</td><td class="info" align="left"><p>Geophysical parameter to use, one of:</p><ul><li><p>dir - Direction of water flow, in degrees. Due north is 0, due east
+<a href="http://www.oscar.noaa.gov/datadisplay/oscar_datadownload.php">here</a>).</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">OSCAR5DayThirdDegreeCurrentsCreateClimatologicalArcGISRasters_GeoEco &lt;dir | dir_anom | eke | mag | mag_anom | tke | u | v | u_anom | v_anom&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;dir | dir_anom | eke | mag | mag_anom | tke | u | v | u_anom | v_anom&gt;</td><td class="info" align="left"><p>Geophysical parameter to use, one of:</p><ul><li><p>dir - Direction of water flow, in degrees. Due north is 0, due east
 is 90, due south is 180, due west is 270.</p></li></ul><ul><li><p>dir_anom - Direction of water flow (from u_anom and v_anom).</p></li></ul><ul><li><p>eke - Eddy kinetic energy, in m^2/s^2, computed as 0.5*(u_anom^2 +
 v_anom^2). Note that oceanographers often apply a filter to a time
@@ -47 +47 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -72 +72 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -103 +117 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -109 +124 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -269 +288 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -300 +333 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -306 +340 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/OceanColorLevel3SMITimeSeries.CreateClimatologicalArcGISRasters.html

@@ -23 +23 @@
 when processing is finished.</p><p><b>References</b></p><p>To cite the use of NASA OceanColor data in a publication, please see
 <a href="http://oceancolor.gsfc.nasa.gov/forum/oceancolor/topic_show.pl?tid=474">these instructions</a>.</p><p>For a list of publications from the NASA OceanColor Group, see
-<a href="http://oceancolor.gsfc.nasa.gov/cgi/obpgpubs.cgi">this page</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">OceanColorLevel3SMITimeSeriesCreateClimatologicalArcGISRasters_GeoEco &lt;Aqua | CZCS | OCTS | SeaWiFS | Terra&gt; &lt;Daily | 8day | Monthly | Annual&gt; &lt;4km | 9km&gt; &lt;product&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {cacheDirectory} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;Aqua | CZCS | OCTS | SeaWiFS | Terra&gt;</td><td class="info" align="left"><p>Sensor to use, one of:</p><ul><li><p>Aqua - the Moderate Resolution Imaging Spectroradiometer (MODIS)
+<a href="http://oceancolor.gsfc.nasa.gov/cgi/obpgpubs.cgi">this page</a>.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103141">OceanColorLevel3SMITimeSeriesCreateClimatologicalArcGISRasters_GeoEco &lt;Aqua | CZCS | OCTS | SeaWiFS | Terra&gt; &lt;Daily | 8day | Monthly | Annual&gt; &lt;4km | 9km&gt; &lt;product&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {cacheDirectory} {binDuration} {startDayOfYear} {rotationOffset} {spatialExtent} {startDate} {endDate} {timeout} {maxRetryTime} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;Aqua | CZCS | OCTS | SeaWiFS | Terra&gt;</td><td class="info" align="left"><p>Sensor to use, one of:</p><ul><li><p>Aqua - the Moderate Resolution Imaging Spectroradiometer (MODIS)
 sensor carried by the Aqua satellite. Aqua datasets start in July
 2002 and were still being collected at the time this tool was
@@ -98 +98 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -123 +123 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -159 +173 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -165 +180 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -379 +398 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -415 +448 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -421 +455 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/ROMSCoSiNE3D.CreateClimatologicalArcGISRasters.html

@@ -44 +44 @@
 modeling system (ROMS): a split-explicit, free-surface,
 topography-following-coordinate oceanic model. Ocean Modelling 9(4):
-347-404.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">ROMSCoSiNE3DCreateClimatologicalArcGISRasters_GeoEco &lt;ubar | vbar | zeta&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {url} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;ubar | vbar | zeta&gt;</td><td class="info" align="left"><p>ROMS-CoSiNE 3D variable, one of:</p><ul><li><p>ubar - Vertically integrated (averaged) eastward sea water velocity,
+347-404.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">ROMSCoSiNE3DCreateClimatologicalArcGISRasters_GeoEco &lt;ubar | vbar | zeta&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {url} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;ubar | vbar | zeta&gt;</td><td class="info" align="left"><p>ROMS-CoSiNE 3D variable, one of:</p><ul><li><p>ubar - Vertically integrated (averaged) eastward sea water velocity,
 in m/s.</p></li></ul><ul><li><p>vbar - Vertically integrated (averaged) northward sea water
 velocity, in m/s.</p></li></ul><ul><li><p>zeta - Sea surface height, in m.</p></li></ul></td></tr><tr><td class="info">&lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt;</td><td class="info" align="left"><p>Statistic to calculate for each cell, one of:</p><ul><li><p>Count - number of images in which the cell had data.</p></li></ul><ul><li><p>Maximum - maximum value for the cell.</p></li></ul><ul><li><p>Mean - mean value for the cell, calculated as the sum divided by the
@@ -51 +51 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -76 +76 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -105 +119 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -111 +126 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -249 +268 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -278 +311 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -284 +318 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/ROMSCoSiNE4D.CreateClimatologicalArcGISRasters.html

@@ -45 +45 @@
 modeling system (ROMS): a split-explicit, free-surface,
 topography-following-coordinate oceanic model. Ocean Modelling 9(4):
-347-404.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">ROMSCoSiNE4DCreateClimatologicalArcGISRasters_GeoEco &lt;dd | ddsi | nh4 | no3 | ox | po4 | s1 | s2 | salt | sio4 | talk | tco2 | temp | u | v | zz1 | zz2&gt; &lt;depths;depths...&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {url} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;dd | ddsi | nh4 | no3 | ox | po4 | s1 | s2 | salt | sio4 | talk | tco2 | temp | u | v | zz1 | zz2&gt;</td><td class="info" align="left"><p>ROMS-CoSiNE 4D variable, one of:</p><ul><li><p>dd - Detrital nitrogen concentration, in mMol N m-3.</p></li></ul><ul><li><p>ddsi - Detrital silicon concentration, in mMol Si m-3.</p></li></ul><ul><li><p>nh4 - Dissolved ammonium concentration, in mMol N m-3.</p></li></ul><ul><li><p>no3 - Dissolved nitrate concentration, in mMol N m-3.</p></li></ul><ul><li><p>ox - Dissolved oxygen concentration, in mMol O2 m-3.</p></li></ul><ul><li><p>po4 - Dissolved phosphate concentration, in mMol P m-3.</p></li></ul><ul><li><p>s1 - Biomass concentration of small phytoplankton (&lt; 5 micrometers
+347-404.</p><br /><p><h2><img width="11" height="11" border="0" src="sm_arrow_down.gif?format=raw" /> Command line syntax</h2></p><div Class="expand" id="id103138">ROMSCoSiNE4DCreateClimatologicalArcGISRasters_GeoEco &lt;dd | ddsi | nh4 | no3 | ox | po4 | s1 | s2 | salt | sio4 | talk | tco2 | temp | u | v | zz1 | zz2&gt; &lt;depths;depths...&gt; &lt;Count | Maximum | Mean | Minimum | Range | Standard Deviation | Sum&gt; &lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt; &lt;outputWorkspace&gt; {Add | Replace} {rasterNameExpressions;rasterNameExpressions...} {binDuration} {startDayOfYear} {spatialExtent} {Degrees | Meters} {startDate} {endDate} {url} {timeout} {maxRetryTime} {cacheDirectory} {calculateStatistics} {buildPyramids} <br /><br /><b>Parameters</b><br /><table width="100%" border="0" cellpadding="5"><tbody><tr><th width="40%"><b>Expression</b></th><th width="60%"><b>Explanation</b></th></tr><tr><td class="info">&lt;dd | ddsi | nh4 | no3 | ox | po4 | s1 | s2 | salt | sio4 | talk | tco2 | temp | u | v | zz1 | zz2&gt;</td><td class="info" align="left"><p>ROMS-CoSiNE 4D variable, one of:</p><ul><li><p>dd - Detrital nitrogen concentration, in mMol N m-3.</p></li></ul><ul><li><p>ddsi - Detrital silicon concentration, in mMol Si m-3.</p></li></ul><ul><li><p>nh4 - Dissolved ammonium concentration, in mMol N m-3.</p></li></ul><ul><li><p>no3 - Dissolved nitrate concentration, in mMol N m-3.</p></li></ul><ul><li><p>ox - Dissolved oxygen concentration, in mMol O2 m-3.</p></li></ul><ul><li><p>po4 - Dissolved phosphate concentration, in mMol P m-3.</p></li></ul><ul><li><p>s1 - Biomass concentration of small phytoplankton (&lt; 5 micrometers
 in diameter), in nitrogen units, i.e. mMol N m-3.</p></li></ul><ul><li><p>s2 - Biomass concentration of diatoms, in nitrogen units, i.e.
 mMol N m-3.</p></li></ul><ul><li><p>salt - Salinity, in PSU.</p></li></ul><ul><li><p>sio4 - Dissolved silicate concentration, in mMol Si m-3.</p></li></ul><ul><li><p>talk - Total alkalinity concentration, in mMol Si m-3.</p></li></ul><ul><li><p>tco2 - Total dissolved inorganic carbon, in mMol CO2 m-3.</p></li></ul><ul><li><p>temp - Potential temperature, in degrees C.</p></li></ul><ul><li><p>u - Eastward sea water velocity, in m/s.</p></li></ul><ul><li><p>v - Northward sea water velocity, in m/s.</p></li></ul><ul><li><p>zz1 - Biomass concentration of microzooplankton, in nitrogen units,
@@ -74 +74 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</p></li></ul><ul><li><p>Sum - the sum for the cell.</p></li></ul></td></tr><tr><td class="info">&lt;Daily | Monthly | Cumulative | ENSO Daily | ENSO Monthly | ENSO Cumulative&gt;</td><td class="info" align="left"><p>Climatology bins to use, one of:</p><ul><li><p>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -99 +99 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">&lt;outputWorkspace&gt;</td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -131 +145 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -137 +152 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are
@@ -297 +316 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</p></li></ul><ul><li><p>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</p></li></ul><ul><li><p>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</p></li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></td></tr><tr><td class="info">Output workspace (Required) </td><td class="info" align="left"><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -329 +362 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</p></li></ul><ul><li><p>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -335 +369 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</p></li></ul><ul><li><p>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</p></li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/RandomForestModel.PredictFromArcGISRasters.html

@@ -51 +51 @@
 remain strings, do not specify quotation marks or other delimiters.</p><p>Please see the documentation for the Output Response Raster for more
 discussion of this parameter.</p></td></tr><tr><td class="info">{cutoff}</td><td class="info" align="left"><p>Cutoff to use when classifying the continuous probability output
-by a binary classification model into a binary result (0 or 1). This
-parameter should not be specified for regression models or
-classification models with more than two classes.</p><p>Probabilities greater than or equal to the cutoff will be classified
-as 1; probabilities less than the cutoff will be classified as 0. If a
-cutoff is not provided, 0.5 will be implicitly used, by virtue of the
-default behavior of random forests, in which the prediction is decided
-by majority vote between all of the trees in the forest.</p></td></tr><tr><td class="info">{resamplingTechniques;resamplingTechniques...}</td><td class="info" align="left"><p>Resampling technique to be used for each predictor raster if that
+by a binomial model into a binary result (0 or 1). This parameter
+should not be specified for models that are not intended to perform
+binary classification.</p><p>If a cutoff is provided, the output raster will have an integer data
+type instead of a floating-point data type. Probabilities greater than
+or equal to the cutoff will be classified as 1; probabilities less
+than the cutoff will be classified as 0.</p></td></tr><tr><td class="info">{resamplingTechniques;resamplingTechniques...}</td><td class="info" align="left"><p>Resampling technique to be used for each predictor raster if that
 raster needs to be automatically projected, as described in the
 documentation for the Predictor Rasters parameter.</p><p>The available resampling techniques are:</p><ul><li><p>NEAREST - Nearest neighbor assignment</p></li></ul><ul><li><p>BILINEAR - Bilinear interpolation</p></li></ul><ul><li><p>CUBIC - Cubic convolution</p></li></ul><ul><li><p>MAJORITY - Majority resampling (requires ArcGIS 9.3 or later)</p></li></ul><p>If you do not specify a resampling technique for a given input
@@ -132 +131 @@
 remain strings, do not specify quotation marks or other delimiters.</p><p>Please see the documentation for the Output Response Raster for more
 discussion of this parameter.</p></td></tr><tr><td class="info">Binary classification cutoff (Optional) </td><td class="info" align="left"><p>Cutoff to use when classifying the continuous probability output
-by a binary classification model into a binary result (0 or 1). This
-parameter should not be specified for regression models or
-classification models with more than two classes.</p><p>Probabilities greater than or equal to the cutoff will be classified
-as 1; probabilities less than the cutoff will be classified as 0. If a
-cutoff is not provided, 0.5 will be implicitly used, by virtue of the
-default behavior of random forests, in which the prediction is decided
-by majority vote between all of the trees in the forest.</p></td></tr><tr><td class="info">Resampling techniques (Optional) </td><td class="info" align="left"><p>Resampling technique to be used for each predictor raster if that
+by a binomial model into a binary result (0 or 1). This parameter
+should not be specified for models that are not intended to perform
+binary classification.</p><p>If a cutoff is provided, the output raster will have an integer data
+type instead of a floating-point data type. Probabilities greater than
+or equal to the cutoff will be classified as 1; probabilities less
+than the cutoff will be classified as 0.</p></td></tr><tr><td class="info">Resampling techniques (Optional) </td><td class="info" align="left"><p>Resampling technique to be used for each predictor raster if that
 raster needs to be automatically projected, as described in the
 documentation for the Predictor Rasters parameter.</p><p>The available resampling techniques are:</p><ul><li><p>NEAREST - Nearest neighbor assignment</p></li></ul><ul><li><p>BILINEAR - Bilinear interpolation</p></li></ul><ul><li><p>CUBIC - Cubic convolution</p></li></ul><ul><li><p>MAJORITY - Majority resampling (requires ArcGIS 9.3 or later)</p></li></ul><p>If you do not specify a resampling technique for a given input

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/ArcGISReference/TreeModel.PredictFromArcGISRasters.html

@@ -49 +49 @@
 remain strings, do not specify quotation marks or other delimiters.</p><p>Please see the documentation for the Output Response Raster for more
 discussion of this parameter.</p></td></tr><tr><td class="info">{cutoff}</td><td class="info" align="left"><p>Cutoff to use when classifying the continuous probability output
-by a binary classification model into a binary result (0 or 1). This
-parameter should not be specified for regression models or
-classification models that have more than two classes.</p><p>Probabilities greater than or equal to the cutoff will be classified
-as 1; probabilities less than the cutoff will be classified as 0. If a
-cutoff is not provided, the classification will be performed
-automatically by R.</p></td></tr><tr><td class="info">{resamplingTechniques;resamplingTechniques...}</td><td class="info" align="left"><p>Resampling technique to be used for each predictor raster if that
+by a binomial model into a binary result (0 or 1). This parameter
+should not be specified for models that are not intended to perform
+binary classification.</p><p>If a cutoff is provided, the output raster will have an integer data
+type instead of a floating-point data type. Probabilities greater than
+or equal to the cutoff will be classified as 1; probabilities less
+than the cutoff will be classified as 0.</p></td></tr><tr><td class="info">{resamplingTechniques;resamplingTechniques...}</td><td class="info" align="left"><p>Resampling technique to be used for each predictor raster if that
 raster needs to be automatically projected, as described in the
 documentation for the Predictor Rasters parameter.</p><p>The available resampling techniques are:</p><ul><li><p>NEAREST - Nearest neighbor assignment</p></li></ul><ul><li><p>BILINEAR - Bilinear interpolation</p></li></ul><ul><li><p>CUBIC - Cubic convolution</p></li></ul><ul><li><p>MAJORITY - Majority resampling (requires ArcGIS 9.3 or later)</p></li></ul><p>If you do not specify a resampling technique for a given input
@@ -127 +127 @@
 remain strings, do not specify quotation marks or other delimiters.</p><p>Please see the documentation for the Output Response Raster for more
 discussion of this parameter.</p></td></tr><tr><td class="info">Binary classification cutoff (Optional) </td><td class="info" align="left"><p>Cutoff to use when classifying the continuous probability output
-by a binary classification model into a binary result (0 or 1). This
-parameter should not be specified for regression models or
-classification models that have more than two classes.</p><p>Probabilities greater than or equal to the cutoff will be classified
-as 1; probabilities less than the cutoff will be classified as 0. If a
-cutoff is not provided, the classification will be performed
-automatically by R.</p></td></tr><tr><td class="info">Resampling techniques (Optional) </td><td class="info" align="left"><p>Resampling technique to be used for each predictor raster if that
+by a binomial model into a binary result (0 or 1). This parameter
+should not be specified for models that are not intended to perform
+binary classification.</p><p>If a cutoff is provided, the output raster will have an integer data
+type instead of a floating-point data type. Probabilities greater than
+or equal to the cutoff will be classified as 1; probabilities less
+than the cutoff will be classified as 0.</p></td></tr><tr><td class="info">Resampling techniques (Optional) </td><td class="info" align="left"><p>Resampling technique to be used for each predictor raster if that
 raster needs to be automatically projected, as described in the
 documentation for the Predictor Rasters parameter.</p><p>The available resampling techniques are:</p><ul><li><p>NEAREST - Nearest neighbor assignment</p></li></ul><ul><li><p>BILINEAR - Bilinear interpolation</p></li></ul><ul><li><p>CUBIC - Cubic convolution</p></li></ul><ul><li><p>MAJORITY - Majority resampling (requires ArcGIS 9.3 or later)</p></li></ul><p>If you do not specify a resampling technique for a given input

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/GettingStarted.html

@@ -3 +3 @@
 <html xmlns="http://www.w3.org/1999/xhtml"><head><title>Getting Started with Marine Geospatial Ecology Tools (MGET)</title><meta http-equiv="Content-Type" content="text/html; charset=UTF-8" /><link rel="stylesheet" type="text/css" href="Documentation.css?format=raw" /><style type="text/css">
         ol { margin-left: 50px; }
-      </style></head><body><p class="title1">Marine Geospatial Ecology Tools</p><p class="title2">Getting Started with Marine Geospatial Ecology Tools</p><table class="docmetadata"><tr><td class="docmetadata1">MGET version:</td><td class="docmetadata2">0.8a42</td></tr><tr><td class="docmetadata1">Document version:</td><td class="docmetadata2">$Id: GettingStarted.xsl 848 2011-12-01 20:34:27Z jjr8 $</td></tr><tr><td class="docmetadata1">Document status:</td><td class="docmetadata2">Complete</td></tr><tr><td class="docmetadata1">Maintainer email:</td><td class="docmetadata2"><a href="mailto:jason.roberts@duke.edu">jason.roberts@duke.edu</a></td></tr><tr><td class="docmetadata1">MGET home page:</td><td class="docmetadata2"><a href="http://code.nicholas.duke.edu/projects/mget">http://code.nicholas.duke.edu/projects/mget</a></td></tr></table><h1><a id="Contents">Contents</a></h1><ul><li><a href="#Intro">What is MGET?</a></li><li><a href="#Installation">Installing MGET</a><ul><li><a href="#SoftwareRequirements">Software Requirements</a></li><li><a href="#InstallationInstructions">Installation Instructions</a></li></ul></li><li><a href="#Examples">MGET Examples</a></li><li><a href="#Help">Getting Help</a></li><li><a href="#Reference">Reference Documentation</a><ul><li><a href="ArcGISReference/ArcGISReference.html?format=raw">ArcGIS Geoprocessing Reference</a></li><li><a href="PythonReference/PythonReference.html?format=raw">Python Reference</a></li><li>COM Reference</li></ul></li><li><a href="#Acknowledgements">Acknowledgements</a></li><li><a href="#Copyright">Copyright and License</a></li></ul><h1><a id="Intro">What is MGET?</a></h1><p>
+      </style></head><body><p class="title1">Marine Geospatial Ecology Tools</p><p class="title2">Getting Started with Marine Geospatial Ecology Tools</p><table class="docmetadata"><tr><td class="docmetadata1">MGET version:</td><td class="docmetadata2">0.8a43</td></tr><tr><td class="docmetadata1">Document version:</td><td class="docmetadata2">$Id: GettingStarted.xsl 848 2011-12-01 20:34:27Z jjr8 $</td></tr><tr><td class="docmetadata1">Document status:</td><td class="docmetadata2">Complete</td></tr><tr><td class="docmetadata1">Maintainer email:</td><td class="docmetadata2"><a href="mailto:jason.roberts@duke.edu">jason.roberts@duke.edu</a></td></tr><tr><td class="docmetadata1">MGET home page:</td><td class="docmetadata2"><a href="http://code.nicholas.duke.edu/projects/mget">http://code.nicholas.duke.edu/projects/mget</a></td></tr></table><h1><a id="Contents">Contents</a></h1><ul><li><a href="#Intro">What is MGET?</a></li><li><a href="#Installation">Installing MGET</a><ul><li><a href="#SoftwareRequirements">Software Requirements</a></li><li><a href="#InstallationInstructions">Installation Instructions</a></li></ul></li><li><a href="#Examples">MGET Examples</a></li><li><a href="#Help">Getting Help</a></li><li><a href="#Reference">Reference Documentation</a><ul><li><a href="ArcGISReference/ArcGISReference.html?format=raw">ArcGIS Geoprocessing Reference</a></li><li><a href="PythonReference/PythonReference.html?format=raw">Python Reference</a></li><li>COM Reference</li></ul></li><li><a href="#Acknowledgements">Acknowledgements</a></li><li><a href="#Copyright">Copyright and License</a></li></ul><h1><a id="Intro">What is MGET?</a></h1><p>
       Marine Geospatial Ecology Tools (MGET), also known as the <code>GeoEco</code> Python
       package, is an open source geoprocessing toolbox designed for coastal and marine

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/PythonReference/Class_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.html

@@ -4 +4 @@
             td.metadataTitle { font-size: 80%; font-weight: bold; font-family: avantgarde, sans-serif; }
             td.metadataValue { padding-left: 0.5em; }
-          </style></head><body><div class="navigation"><div><table align="center" width="100%" cellpadding="0" cellspacing="2"><tr><td class="online-navigation"><a title="GeoEco.FisheryAnalysis.Spatiotemporal Module" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw"><img src="previous.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Previous Page" /></a></td><td class="online-navigation"><a title="Module Index" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw"><img src="up.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Up one Level" /></a></td><td class="online-navigation"><a title="AnalyzeCPUEInArcGISTable Method" href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw"><img src="next.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Next Page" /></a></td><td align="center" width="100%">GeoEco Python Reference</td><td class="online-navigation"><a title="Table of Contents" href="TableOfContents.html?format=raw"><img src="contents.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Table of Contents" /></a></td><td class="online-navigation"><a title="Module Index" href="ModuleIndex.html?format=raw"><img src="modules.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Module Index" /></a></td><td class="online-navigation"><img src="blank.png?format=raw" border="0" align="bottom" height="32" width="32" alt="" /></td></tr></table><div class="online-navigation"><b class="navlabel">Previous:</b> <a class="sectref" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">GeoEco.FisheryAnalysis.Spatiotemporal Module</a> <b class="navlabel">Up:</b> <a class="sectref" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">Module Index</a> <b class="navlabel">Next:</b> <a class="sectref" href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">AnalyzeCPUEInArcGISTable Method</a> </div><hr /></div></div><h1><tt class="class">FisheryPeriodicity</tt> Class</h1><p>Methods for analyzing temporal perodicity in time-series fisheries data.</p><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td class="metadataTitle">Module:</td><td class="metadataValue"><tt class="module"><a href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">GeoEco.FisheryAnalysis.Spatiotemporal</a></tt></td></tr><tr valign="baseline"><td class="metadataTitle">Intended use:</td><td class="metadataValue">All methods are recommended for external callers</td></tr><tr valign="baseline"><td class="metadataTitle">COM:</td><td class="metadataValue">Exposed as COM class <a style="font-family: verdana, sans serif; font-size: small;" href="../COMReference/Class_GeoEco.FisheryPeriodicity.html?format=raw">GeoEco.FisheryPeriodicity</a></td></tr><tr valign="baseline"><td class="metadataTitle">ArcGIS:</td><td class="metadataValue">Some methods are exposed as ArcGIS geoprocessing tools</td></tr></table><h3>Classmethods</h3><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">AnalyzeCPUEInArcGISTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><var>, catchField</var><big>[</big><var>, effortField</var><big>[</big><var>, effortIDFields</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that analyze the temporal periodicity of catch per unit effort (FPUE) calculated from fishing records in a table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInTable.html?format=raw">AnalyzeCPUEInTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><var>, catchField</var><big>[</big><var>, effortField</var><big>[</big><var>, effortIDFields</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that analyze the temporal periodicity of catch per unit effort (FPUE) calculated from fishing records in a Table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCatchInArcGISTable.html?format=raw">AnalyzeCatchInArcGISTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><var>, catchField</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that show the temporal periodicity of catch records in a table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCatchInTable.html?format=raw">AnalyzeCatchInTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><var>, catchField</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that analyze the temporal periodicity of catch records in a Table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeEffortInArcGISTable.html?format=raw">AnalyzeEffortInArcGISTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><big>[</big><var>, effortField</var><big>[</big><var>, effortIDFields</var><big>[</big><var>, aggregationMethod</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that show the temporal periodicity of fishing effort records in a table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeEffortInTable.html?format=raw">AnalyzeEffortInTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><big>[</big><var>, effortField</var><big>[</big><var>, effortIDFields</var><big>[</big><var>, aggregationMethod</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that analyze the temporal periodicity of fishing effort records in a Table.</dd></dl><div class="navigation"><div class="online-navigation"><p></p><hr /><table align="center" width="100%" cellpadding="0" cellspacing="2"><tr><td class="online-navigation"><a title="GeoEco.FisheryAnalysis.Spatiotemporal Module" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw"><img src="previous.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Previous Page" /></a></td><td class="online-navigation"><a title="Module Index" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw"><img src="up.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Up one Level" /></a></td><td class="online-navigation"><a title="AnalyzeCPUEInArcGISTable Method" href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw"><img src="next.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Next Page" /></a></td><td align="center" width="100%">GeoEco Python Reference</td><td class="online-navigation"><a title="Table of Contents" href="TableOfContents.html?format=raw"><img src="contents.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Table of Contents" /></a></td><td class="online-navigation"><a title="Module Index" href="ModuleIndex.html?format=raw"><img src="modules.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Module Index" /></a></td><td class="online-navigation"><img src="blank.png?format=raw" border="0" align="bottom" height="32" width="32" alt="" /></td></tr></table><div class="online-navigation"><b class="navlabel">Previous:</b> <a class="sectref" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">GeoEco.FisheryAnalysis.Spatiotemporal Module</a> <b class="navlabel">Up:</b> <a class="sectref" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">Module Index</a> <b class="navlabel">Next:</b> <a class="sectref" href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">AnalyzeCPUEInArcGISTable Method</a> </div><hr /><span class="release-info">Marine Geospatial Ecology Tools version 0.8</span></div></div></body></html>
+          </style></head><body><div class="navigation"><div><table align="center" width="100%" cellpadding="0" cellspacing="2"><tr><td class="online-navigation"><a title="GeoEco.FisheryAnalysis.Spatiotemporal Module" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw"><img src="previous.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Previous Page" /></a></td><td class="online-navigation"><a title="Module Index" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw"><img src="up.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Up one Level" /></a></td><td class="online-navigation"><a title="AnalyzeCPUEInArcGISTable Method" href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw"><img src="next.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Next Page" /></a></td><td align="center" width="100%">GeoEco Python Reference</td><td class="online-navigation"><a title="Table of Contents" href="TableOfContents.html?format=raw"><img src="contents.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Table of Contents" /></a></td><td class="online-navigation"><a title="Module Index" href="ModuleIndex.html?format=raw"><img src="modules.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Module Index" /></a></td><td class="online-navigation"><img src="blank.png?format=raw" border="0" align="bottom" height="32" width="32" alt="" /></td></tr></table><div class="online-navigation"><b class="navlabel">Previous:</b> <a class="sectref" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">GeoEco.FisheryAnalysis.Spatiotemporal Module</a> <b class="navlabel">Up:</b> <a class="sectref" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">Module Index</a> <b class="navlabel">Next:</b> <a class="sectref" href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">AnalyzeCPUEInArcGISTable Method</a> </div><hr /></div></div><h1><tt class="class">FisheryPeriodicity</tt> Class</h1><p>Methods for analyzing temporal perodicity in time-series fisheries data.</p><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td class="metadataTitle">Module:</td><td class="metadataValue"><tt class="module"><a href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">GeoEco.FisheryAnalysis.Spatiotemporal</a></tt></td></tr><tr valign="baseline"><td class="metadataTitle">Intended use:</td><td class="metadataValue">All methods are recommended for external callers</td></tr><tr valign="baseline"><td class="metadataTitle">COM:</td><td class="metadataValue">Exposed as COM class <a style="font-family: verdana, sans serif; font-size: small;" href="../COMReference/Class_GeoEco.FisheryPeriodicity.html?format=raw">GeoEco.FisheryPeriodicity</a></td></tr><tr valign="baseline"><td class="metadataTitle">ArcGIS:</td><td class="metadataValue">Some methods are exposed as ArcGIS geoprocessing tools</td></tr></table><h3>Classmethods</h3><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">AnalyzeCPUEInArcGISTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><var>, catchField</var><big>[</big><var>, effortField</var><big>[</big><var>, effortIDFields</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that analyze the temporal periodicity of catch per unit effort (CPUE) calculated from fishing records in a table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInTable.html?format=raw">AnalyzeCPUEInTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><var>, catchField</var><big>[</big><var>, effortField</var><big>[</big><var>, effortIDFields</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that analyze the temporal periodicity of catch per unit effort (CPUE) calculated from fishing records in a Table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCatchInArcGISTable.html?format=raw">AnalyzeCatchInArcGISTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><var>, catchField</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that show the temporal periodicity of catch records in a table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCatchInTable.html?format=raw">AnalyzeCatchInTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><var>, catchField</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that analyze the temporal periodicity of catch records in a Table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeEffortInArcGISTable.html?format=raw">AnalyzeEffortInArcGISTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><big>[</big><var>, effortField</var><big>[</big><var>, effortIDFields</var><big>[</big><var>, aggregationMethod</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that show the temporal periodicity of fishing effort records in a table.</dd></dl><dl><dt><table cellpadding="0" cellspacing="0"><tr valign="baseline"><td style="white-space: nowrap;"><b><tt class="method"><a href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeEffortInTable.html?format=raw">AnalyzeEffortInTable</a></tt></b>(</td><td><var>table</var><var>, dateField</var><big>[</big><var>, effortField</var><big>[</big><var>, effortIDFields</var><big>[</big><var>, aggregationMethod</var><big>[</big><var>, where</var><big>[</big><var>, binWidth</var><big>[</big><var>, timeUnits</var><big>[</big><var>, xAxisMinimum</var><big>[</big><var>, xAxisMaximum</var><big>[</big><var>, yAxisLabel</var><big>[</big><var>, scaleFactor</var><big>[</big><var>, samplingPeriod</var><big>[</big><var>, maxPeriod</var><big>[</big><var>, periodogramMethod</var><big>[</big><var>, oversamplingFactor</var><big>[</big><var>, outputFile</var><big>[</big><var>, title</var><big>[</big><var>, width</var><big>[</big><var>, dpi</var><big>[</big><var>, fontSize</var><big>[</big><var>, dayOfYearPlot</var><big>[</big><var>, dayOfYearBars</var><big>[</big><var>, moonPhasePlot</var><big>[</big><var>, moonPhaseBars</var><big>[</big><var>, timeOfDayPlot</var><big>[</big><var>, timeOfDayBars</var><big>[</big><var>, overwriteExisting</var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var><big>]</big><var></var>)</td></tr></table></dt><dd>Creates several plots that analyze the temporal periodicity of fishing effort records in a Table.</dd></dl><div class="navigation"><div class="online-navigation"><p></p><hr /><table align="center" width="100%" cellpadding="0" cellspacing="2"><tr><td class="online-navigation"><a title="GeoEco.FisheryAnalysis.Spatiotemporal Module" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw"><img src="previous.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Previous Page" /></a></td><td class="online-navigation"><a title="Module Index" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw"><img src="up.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Up one Level" /></a></td><td class="online-navigation"><a title="AnalyzeCPUEInArcGISTable Method" href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw"><img src="next.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Next Page" /></a></td><td align="center" width="100%">GeoEco Python Reference</td><td class="online-navigation"><a title="Table of Contents" href="TableOfContents.html?format=raw"><img src="contents.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Table of Contents" /></a></td><td class="online-navigation"><a title="Module Index" href="ModuleIndex.html?format=raw"><img src="modules.png?format=raw" border="0" align="bottom" height="32" width="32" alt="Module Index" /></a></td><td class="online-navigation"><img src="blank.png?format=raw" border="0" align="bottom" height="32" width="32" alt="" /></td></tr></table><div class="online-navigation"><b class="navlabel">Previous:</b> <a class="sectref" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">GeoEco.FisheryAnalysis.Spatiotemporal Module</a> <b class="navlabel">Up:</b> <a class="sectref" href="Module_GeoEco.FisheryAnalysis.Spatiotemporal.html?format=raw">Module Index</a> <b class="navlabel">Next:</b> <a class="sectref" href="Method_GeoEco.FisheryAnalysis.Spatiotemporal.FisheryPeriodicity.AnalyzeCPUEInArcGISTable.html?format=raw">AnalyzeCPUEInArcGISTable Method</a> </div><hr /><span class="release-info">Marine Geospatial Ecology Tools version 0.8</span></div></div></body></html>

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.Connectivity.CoralReefConnectivity._AvisoCurrentsInMetersPerSecond.CreateClimatologicalArcGISRasters.html

@@ -48 +48 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code>, <code>u'ENSO Daily'</code>, <code>u'ENSO Monthly'</code>, <code>u'ENSO Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -73 +73 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</li><li>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</li><li>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></dd></dl><dl><dt><var>outputWorkspace</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Minimum length:</td><td class="metadataValue">1</td></tr><tr valign="baseline"><td class="metadataTitle">Maximum length:</td><td class="metadataValue">255</td></tr><tr valign="baseline"><td class="metadataTitle">Must exist:</td><td class="metadataValue">No</td></tr></table><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -117 +131 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -123 +138 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.Aviso.AvisoGriddedGeostrophicCurrents.CreateClimatologicalArcGISRasters.html

@@ -48 +48 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code>, <code>u'ENSO Daily'</code>, <code>u'ENSO Monthly'</code>, <code>u'ENSO Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -73 +73 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</li><li>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</li><li>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></dd></dl><dl><dt><var>outputWorkspace</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Minimum length:</td><td class="metadataValue">1</td></tr><tr valign="baseline"><td class="metadataTitle">Maximum length:</td><td class="metadataValue">255</td></tr><tr valign="baseline"><td class="metadataTitle">Must exist:</td><td class="metadataValue">No</td></tr></table><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -117 +131 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -123 +138 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.Aviso.AvisoGriddedSSH.CreateClimatologicalArcGISRasters.html

@@ -36 +36 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code>, <code>u'ENSO Daily'</code>, <code>u'ENSO Monthly'</code>, <code>u'ENSO Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -61 +61 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</li><li>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</li><li>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></dd></dl><dl><dt><var>outputWorkspace</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Minimum length:</td><td class="metadataValue">1</td></tr><tr valign="baseline"><td class="metadataTitle">Maximum length:</td><td class="metadataValue">255</td></tr><tr valign="baseline"><td class="metadataTitle">Must exist:</td><td class="metadataValue">No</td></tr></table><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -105 +119 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -111 +126 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.Aviso.AvisoGriddedSignificantWaveHeight.CreateClimatologicalArcGISRasters.html

@@ -28 +28 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code>, <code>u'ENSO Daily'</code>, <code>u'ENSO Monthly'</code>, <code>u'ENSO Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -53 +53 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</li><li>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</li><li>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></dd></dl><dl><dt><var>outputWorkspace</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Minimum length:</td><td class="metadataValue">1</td></tr><tr valign="baseline"><td class="metadataTitle">Maximum length:</td><td class="metadataValue">255</td></tr><tr valign="baseline"><td class="metadataTitle">Must exist:</td><td class="metadataValue">No</td></tr></table><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -97 +111 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -103 +118 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.Aviso.AvisoGriddedWindSpeedModulus.CreateClimatologicalArcGISRasters.html

@@ -28 +28 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code>, <code>u'ENSO Daily'</code>, <code>u'ENSO Monthly'</code>, <code>u'ENSO Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -53 +53 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</li><li>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</li><li>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></dd></dl><dl><dt><var>outputWorkspace</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Minimum length:</td><td class="metadataValue">1</td></tr><tr valign="baseline"><td class="metadataTitle">Maximum length:</td><td class="metadataValue">255</td></tr><tr valign="baseline"><td class="metadataTitle">Must exist:</td><td class="metadataValue">No</td></tr></table><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -97 +111 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -103 +118 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "sum".</li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.HYCOM.HYCOMGLBa008Equatorial3D.CreateClimatologicalArcGISRasters.html

@@ -13 +13 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code>, <code>u'ENSO Daily'</code>, <code>u'ENSO Monthly'</code>, <code>u'ENSO Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -38 +38 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</li><li>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</li><li>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></dd></dl><dl><dt><var>outputWorkspace</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Minimum length:</td><td class="metadataValue">1</td></tr><tr valign="baseline"><td class="metadataTitle">Maximum length:</td><td class="metadataValue">255</td></tr><tr valign="baseline"><td class="metadataTitle">Must exist:</td><td class="metadataValue">No</td></tr></table><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -67 +81 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -73 +88 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</li></ul><p>If the Bin Type is "Daily", the following additional codes are

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@@ -10 +10 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code>, <code>u'ENSO Daily'</code>, <code>u'ENSO Monthly'</code>, <code>u'ENSO Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -35 +35 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</li><li>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</li><li>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></dd></dl><dl><dt><var>outputWorkspace</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Minimum length:</td><td class="metadataValue">1</td></tr><tr valign="baseline"><td class="metadataTitle">Maximum length:</td><td class="metadataValue">255</td></tr><tr valign="baseline"><td class="metadataTitle">Must exist:</td><td class="metadataValue">No</td></tr></table><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -64 +78 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -70 +85 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.HYCOM.HYCOMGOMl0043D.CreateClimatologicalArcGISRasters.html

@@ -13 +13 @@
 (i.e. the standard deviation estimated using Bessel's correction).
 In order to calculate this, there must be at least two images with
-data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
+data for the cell.</li><li>Sum - the sum for the cell.</li></ul></dd></dl><dl><dt><var>binType</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Allowed values:</td><td class="metadataValue"><code>u'Daily'</code>, <code>u'Monthly'</code>, <code>u'Cumulative'</code>, <code>u'ENSO Daily'</code>, <code>u'ENSO Monthly'</code>, <code>u'ENSO Cumulative'</code></td></tr></table><p>Climatology bins to use, one of:</p><ul><li>Daily - daily bins. Images will be classified into bins according to
 their days of the year. The number of days in each bin is determined
 by the Climatology Bin Duration parameter (which defaults to 1). The
@@ -38 +38 @@
 will be created. For example, if the bin duration is 5, 3 bins will
 be created: January-May, June-October, November-December.</li><li>Cumulative - one bin. A single climatology raster will be calculated
-from the entire dataset. The Bin Duration parameter is ignored.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
+from the entire dataset. The Bin Duration parameter is ignored.</li><li>ENSO Daily, ENSO Monthly, ENSO Cumulative - the same as above,
+except each of the bins above will be split into three, based on the
+phase of the <a href="http://en.wikipedia.org/wiki/ENSO">El Nino Southern Oscillation (ENSO)</a>,
+as determined by the Oceanic Nino Index (ONI) calculated by the
+<a href="http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml">NOAA NCEP Climate Prediction Center</a>.
+The ONI classifies each month into one of three phases: neutral, El
+Nino, or La Nina. This tool first classifies input images according
+to their dates into ENSO phases (it downloads ONI data from the
+<a href="http://www.esrl.noaa.gov/psd/data/climateindices/list/">NOAA Earth System Research Laboratory</a>),
+then produces a climatology bin for each phase. For example, if you
+request ENSO Cumulative bins, three bins will be produced: one for
+all images occurring in neutral months, one for all in El Nino
+months, and one for all in La Nina months. If you request ENSO
+Monthly bins, 36 bins will be produced: one for each combination of
+the 12 months and the three ENSO phases.</li></ul><p>For Daily and Monthly, to adjust when the bins start (e.g. to center a
 4-bin seasonal climatology on solstices and equinoxes), use the Start
 Climatology At This Day Of The Year parameter.</p></dd></dl><dl><dt><var>outputWorkspace</var></dt><dd><table cellpadding="0" cellspacing="0" style="margin-top: 1.0em;"><tr valign="baseline"><td class="metadataTitle">Python type:</td><td class="metadataValue"><tt class="class">unicode</tt></td></tr><tr valign="baseline"><td class="metadataTitle">Minimum length:</td><td class="metadataValue">1</td></tr><tr valign="baseline"><td class="metadataTitle">Maximum length:</td><td class="metadataValue">255</td></tr><tr valign="baseline"><td class="metadataTitle">Must exist:</td><td class="metadataValue">No</td></tr></table><p>Directory or geodatabase to receive the rasters.</p><p>Unless you have a specific reason to store the rasters in a
@@ -67 +81 @@
 if 1-day bins, "Xday" if multi-day bins (X is replaced by the
 duration), "Monthly" if 1-month bins, "Xmonth" if multi-month bins,
-or "Cumulative".</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
+or "Cumulative". If an ENSO bin type is used, "ENSO_" will be
+prepended to those strings (e.g. "ENSO_Daily", "ENSO_Monthly").</li><li>%(ClimatologyBinName)s - name of the climatology bin corresponding
 represented by the output raster, either "dayXXX" for 1-day bins
 (XXX is replaced by the day of the year), "daysXXXtoYYY" for
@@ -73 +88 @@
 replaced by the last day), "monthXX" for 1-month bins (XX is
 replaced by the month), "monthXXtoYY" (XX is replaced by the first
-month of the bin, YY by the last month), or "cumulative".</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
+month of the bin, YY by the last month), or "cumulative". If an ENSO
+bin type is used, "neutral_", "ElNino_", and "LaNina_" will be
+prepended to those strings for each of the three ENSO phased rasters
+(e.g. "neutral_cumulative", "ElNino_cumulative", and
+"LaNina_cumulative" when "ENSO Cumulative" bins are requested).</li><li>%(Statistic)s - statistic that was calculated, in lowercase and with
 spaces replaced by underscores; one of: "count", "maximum", "mean",
 "minimum", "range", "standard_deviation", "Sum".</li></ul><p>If the Bin Type is "Daily", the following additional codes are

MGET/Branches/Jason/PythonPackage/dist/TracOnlineDocumentation/Documentation/PythonReference/Method_GeoEco.DataProducts.HYCOM.HYCOMGOMl0044D.CreateClimatologicalArcGISRasters.html

@@ -10 +10 @@
 (i.e. the standard deviation estimate