`CoastWatchAVHRR` Class

Provides methods for working with NOAA CoastWatch POES AVHRR data.

Module:	`GeoEco.DataProducts.NOAA.CoastWatchAVHRR`
Intended use:	All methods are recommended for external callers
COM:	Exposed as COM class GeoEco.CoastWatchAVHRR
ArcGIS:	Some methods are exposed as ArcGIS geoprocessing tools

Classmethods

CopyNavigationOffsets( sourceFile, sourceVariable, destFile[, destVariables]): Copies the navigation offsets from one variable in a CoastWatch POES AVHRR CWF or HDF file to one or more variables in another file.

CopyNavigationOffsetsArcGISTable( table, coastWatchFileField, sourceVariable[, destVariables[, where[, basePath]]]): Copies navigation offsets from a source variable to destination variables in CoastWatch POES AVHRR CWF or HDF files listed in a table.

CopyNavigationOffsetsList( coastWatchFileList, sourceVariable[, destVariables[, basePath]]): Copies navigation offsets from a source variable to destination variables in CoastWatch POES AVHRR CWF or HDF files in a list.

CopyNavigationOffsetsTable( connection, table, coastWatchFileField, sourceVariable[, destVariables[, where[, basePath]]]): Copies navigation offsets from a source variable to destination variables in CoastWatch POES AVHRR CWF or HDF files listed in a table.

CreateMask( coastWatchFile[, maskMissingData[, maskLand[, cloudMaskFile[, cloudVariable[, sunZenithFile[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors]]]]]]]]]]]]]]]]]]]]]]]): Creates a mask for a CoastWatch POES AVHRR image.

CreateMaskAsArcGISRaster( coastWatchFile, outputRaster[, storeNoDataForUnmaskedPixels[, maskMissingData[, maskLand[, cloudMaskFile[, cloudVariable[, sunZenithFile[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, mapAlgebraExpression[, buildPyramids[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Creates a mask, in ArcGIS raster format, for a CoastWatch POES AVHRR image.

CreateMaskAsBinaryRaster( coastWatchFile, outputFile[, maskMissingData[, maskLand[, cloudMaskFile[, cloudVariable[, sunZenithFile[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]): Creates a mask, in binary raster format, for a CoastWatch POES AVHRR image.

CreateMasksAsArcGISRastersArcGISTable( table, coastWatchFileField, outputRasterField[, storeNoDataForUnmaskedPixels[, maskMissingData[, maskLand[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Creates masks, in ArcGIS raster format, for CoastWatch POES AVHRR images listed in a table.

CreateMasksAsArcGISRastersList( coastWatchFileList, outputRasterList[, storeNoDataForUnmaskedPixels[, maskMissingData[, maskLand[, cloudMaskFileList[, cloudVariable[, sunZenithFileList[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]): Creates masks, in ArcGIS raster format, for a list of CoastWatch POES AVHRR images.

CreateMasksAsArcGISRastersTable( connection, table, coastWatchFileField, outputRasterField[, storeNoDataForUnmaskedPixels[, maskMissingData[, maskLand[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Creates masks, in ArcGIS raster format, for CoastWatch POES AVHRR images listed in a table.

CreateMasksAsBinaryRastersArcGISTable( table, coastWatchFileField, outputFileField[, maskMissingData[, maskLand[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Creates masks, in binary raster format, for CoastWatch POES AVHRR images listed in a table.

CreateMasksAsBinaryRastersList( coastWatchFileList, outputFileList[, maskMissingData[, maskLand[, cloudMaskFileList[, cloudVariable[, sunZenithFileList[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]): Creates masks, in binary raster format, for a list of CoastWatch POES AVHRR images.

CreateMasksAsBinaryRastersTable( connection, table, coastWatchFileField, outputFileField[, maskMissingData[, maskLand[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Creates masks, in binary raster format, for CoastWatch POES AVHRR images listed in a table.

FindAndConvertToArcGISRasters( inputDirectory, outputWorkspace[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudVariable[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, mapAlgebraExpression[, buildPyramids[, outputRasterPythonExpression[, modulesToImport[, skipExisting[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Finds images in CoastWatch POES AVHRR files in a directory and converts them to ArcGIS rasters.

FindAndConvertToBinaryRasters( inputDirectory, outputDirectory[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudVariable[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, outputFilePythonExpression[, modulesToImport[, skipExisting[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Finds images in CoastWatch POES AVHRR files in a directory and converts them to binary rasters.

FindAndConvertToCoastWatchHDFs( inputDirectory, outputDirectory[, variablesToImport[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, outputFilePythonExpression[, modulesToImport[, skipExisting[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]): Finds images in CoastWatch POES AVHRR files in a directory and imports them into CoastWatch HDFs.

FindAndCreateMasksAsArcGISRasters( inputDirectory, outputWorkspace[, storeNoDataForUnmaskedPixels[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, maskMissingData[, maskLand[, cloudVariable[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, outputRasterPythonExpression[, modulesToImport[, skipExisting[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in ArcGIS raster format.

FindAndCreateMasksAsBinaryRasters( inputDirectory, outputDirectory[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, maskMissingData[, maskLand[, cloudVariable[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, outputFilePythonExpression[, modulesToImport[, skipExisting[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Finds images in CoastWatch POES AVHRR files in a directory creates masks for them, in binary raster format.

FindCoastWatchFilesAndFindFrontsAsArcGISRasters( inputDirectory, outputWorkspace, minPopMeanDifference[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, cloudVariable[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, medianFilterWindowSize[, histogramWindowSize[, histogramWindowStride[, minPropNonMaskedCells[, minPopProp[, minTheta[, minSinglePopCohesion[, minGlobalPopCohesion[, threads[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, buildPyramids[, outputFrontsRasterPythonExpression[, outputMaskRasterPythonExpression[, outputFilteredImageRasterPythonExpression[, outputCandidateCountsRasterPythonExpression[, outputFrontCountsRasterPythonExpression[, outputWindowStatusCodesRasterPythonExpression[, outputWindowStatusValuesRasterPythonExpression[, modulesToImport[, skipExisting[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): 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.

FindFiles( directory[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, basePath]]]]]]]]]]]]]]]]]): Finds CoastWatch POES AVHRR files within a directory and returns a list of them with associated metadata.

FindFilesAndCreateArcGISTable( directory, workspace, table, fileField[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, createCoastWatchMetadataFields[, relativePathField[, createFileMetadataFields[, maxPathLength[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]): Finds CoastWatch POES AVHRR files within a directory and creates a table that lists them.

FindFilesAndCreateTable( directory, connection, table, fileField[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, regionCodeField[, satelliteField[, sensorField[, imageDateTimeField[, imageUnixTimeField[, sceneTimeField[, projectionTypeField[, mapProjectionField[, mapAffineAField[, mapAffineBField[, mapAffineCField[, mapAffineDField[, mapAffineEField[, mapAffineFField[, spheroidField[, originField[, formatField[, pixelWidthField[, pixelHeightField[, totalWidthField[, totalHeightField[, centerYField[, centerXField[, upperLeftYField[, upperLeftXField[, upperRightYField[, upperRightXField[, lowerLeftYField[, lowerLeftXField[, lowerRightYField[, lowerRightXField[, relativePathField[, basePath[, sizeField[, dateCreatedField[, dateModifiedField[, stringFieldsDataType[, floatFieldsDataType[, dateFieldsDataType[, intFieldsDataType[, maxPathLength[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Finds CoastWatch POES AVHRR files within a directory and creates a table that lists them.

FindFilesAndFillTable( directory, insertCursor, fileField[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, regionCodeField[, satelliteField[, sensorField[, imageDateTimeField[, imageUnixTimeField[, sceneTimeField[, projectionTypeField[, mapProjectionField[, mapAffineAField[, mapAffineBField[, mapAffineCField[, mapAffineDField[, mapAffineEField[, mapAffineFField[, spheroidField[, originField[, formatField[, pixelWidthField[, pixelHeightField[, totalWidthField[, totalHeightField[, centerYField[, centerXField[, upperLeftYField[, upperLeftXField[, upperRightYField[, upperRightXField[, lowerLeftYField[, lowerLeftXField[, lowerRightYField[, lowerRightXField[, relativePathField[, basePath[, sizeField[, dateCreatedField[, dateModifiedField]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Finds CoastWatch POES AVHRR files within a directory and inserts a row for each into an existing table.

FindFrontsAsArcGISRaster( imageFile, variable, minPopMeanDifference, outputFrontsRaster[, cloudMaskFile[, cloudVariable[, sunZenithFile[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, medianFilterWindowSize[, histogramWindowSize[, histogramWindowStride[, minPropNonMaskedCells[, minPopProp[, minTheta[, minSinglePopCohesion[, minGlobalPopCohesion[, threads[, outputMaskRaster[, outputFilteredImageRaster[, outputCandidateCountsRaster[, outputFrontCountsRaster[, outputWindowStatusCodesRaster[, outputWindowStatusValuesRaster[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, buildPyramids[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): 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.

FindFrontsAsArcGISRastersArcGISTable( table, imageFileField, variableField, minPopMeanDifference, outputFrontsRasterField[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, medianFilterWindowSize[, histogramWindowSize[, histogramWindowStride[, minPropNonMaskedCells[, minPopProp[, minTheta[, minSinglePopCohesion[, minGlobalPopCohesion[, threads[, outputMaskRasterField[, outputFilteredImageRasterField[, outputCandidateCountsRasterField[, outputFrontCountsRasterField[, outputWindowStatusCodesRasterField[, outputWindowStatusValuesRasterField[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, buildPyramids[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): 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.

FindFrontsAsArcGISRastersList( imageFileList, variableList, minPopMeanDifference, outputFrontsRasterList[, cloudMaskFileList[, cloudVariable[, sunZenithFileList[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, medianFilterWindowSize[, histogramWindowSize[, histogramWindowStride[, minPropNonMaskedCells[, minPopProp[, minTheta[, minSinglePopCohesion[, minGlobalPopCohesion[, threads[, outputMaskRasterList[, outputFilteredImageRasterList[, outputCandidateCountsRasterList[, outputFrontCountsRasterList[, outputWindowStatusCodesRasterList[, outputWindowStatusValuesRasterList[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, buildPyramids[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Finds fronts in a list of CoastWatch POES AVHRR images using the Cayula and Cornillon (1992) single-image edge detection algorithm and outputs them as ArcGIS rasters.

FindFrontsAsArcGISRastersTable( connection, table, imageFileField, variableField, minPopMeanDifference, outputFrontsRasterField[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, medianFilterWindowSize[, histogramWindowSize[, histogramWindowStride[, minPropNonMaskedCells[, minPopProp[, minTheta[, minSinglePopCohesion[, minGlobalPopCohesion[, threads[, outputMaskRasterField[, outputFilteredImageRasterField[, outputCandidateCountsRasterField[, outputFrontCountsRasterField[, outputWindowStatusCodesRasterField[, outputWindowStatusValuesRasterField[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, buildPyramids[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): 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.

FindFrontsAsBinaryRaster( imageFile, variable, minPopMeanDifference, outputFrontsFile[, cloudMaskFile[, cloudVariable[, sunZenithFile[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, medianFilterWindowSize[, histogramWindowSize[, histogramWindowStride[, minPropNonMaskedCells[, minPopProp[, minTheta[, minSinglePopCohesion[, minGlobalPopCohesion[, threads[, outputMaskFile[, outputFilteredImageFile[, outputCandidateCountsFile[, outputFrontCountsFile[, outputWindowStatusCodesFile[, outputWindowStatusValuesFile[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): 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.

FindImagesInFiles( directory[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, basePath]]]]]]]]]]]]]]]]]): Finds CoastWatch POES AVHRR files within a directory and returns a list of images within them, and associated metadata.

FindImagesInFilesAndCreateArcGISTable( directory, workspace, table, fileField, variableField[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, createCoastWatchMetadataFields[, relativePathField[, createFileMetadataFields[, maxPathLength[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]): Finds CoastWatch POES AVHRR files within a directory and creates a table that lists the images within them.

FindImagesInFilesAndCreateTable( directory, connection, table, fileField, variableField[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, regionCodeField[, satelliteField[, sensorField[, imageDateTimeField[, imageUnixTimeField[, sceneTimeField[, projectionTypeField[, mapProjectionField[, mapAffineAField[, mapAffineBField[, mapAffineCField[, mapAffineDField[, mapAffineEField[, mapAffineFField[, spheroidField[, originField[, formatField[, pixelWidthField[, pixelHeightField[, totalWidthField[, totalHeightField[, centerYField[, centerXField[, upperLeftYField[, upperLeftXField[, upperRightYField[, upperRightXField[, lowerLeftYField[, lowerLeftXField[, lowerRightYField[, lowerRightXField[, abbreviationField[, typeField[, rowsField[, columnsField[, unitsField[, scaleField[, offsetField[, navOffsetYField[, navOffsetXField[, relativePathField[, basePath[, sizeField[, dateCreatedField[, dateModifiedField[, stringFieldsDataType[, floatFieldsDataType[, dateFieldsDataType[, intFieldsDataType[, maxPathLength[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Finds CoastWatch POES AVHRR files within a directory and creates a table that lists the images within them.

FindImagesInFilesAndFillTable( directory, insertCursor, fileField, variableField[, wildcard[, searchTree[, minSize[, maxSize[, minDateCreated[, maxDateCreated[, minDateModified[, maxDateModified[, variables[, regionCodes[, satellites[, minImageDate[, maxImageDate[, minDayOfYear[, maxDayOfYear[, sceneTimes[, regionCodeField[, satelliteField[, sensorField[, imageDateTimeField[, imageUnixTimeField[, sceneTimeField[, projectionTypeField[, mapProjectionField[, mapAffineAField[, mapAffineBField[, mapAffineCField[, mapAffineDField[, mapAffineEField[, mapAffineFField[, spheroidField[, originField[, formatField[, pixelWidthField[, pixelHeightField[, totalWidthField[, totalHeightField[, centerYField[, centerXField[, upperLeftYField[, upperLeftXField[, upperRightYField[, upperRightXField[, lowerLeftYField[, lowerLeftXField[, lowerRightYField[, lowerRightXField[, abbreviationField[, typeField[, rowsField[, columnsField[, unitsField[, scaleField[, offsetField[, navOffsetYField[, navOffsetXField[, relativePathField[, basePath[, sizeField[, dateCreatedField[, dateModifiedField]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Finds CoastWatch files within a directory and inserts a row for each image in each file into an existing table.

GetMetadata( coastWatchFile[, failOnError]): Extracts metadata from a CoastWatch POES AVHRR file and returns it as a dictionary.

GetMetadataForVariable( coastWatchFile, variable): Extracts metadata from a CoastWatch POES AVHRR file for a specific variable and returns it as a dictionary.

SetNavigationOffsets( coastWatchFile, navOffsetX, navOffsetY[, variables]): Sets the navigation offsets of a CoastWatch POES AVHRR CWF or HDF file.

SetNavigationOffsetsArcGISTable( table, coastWatchFileField, navOffsetXField, navOffsetYField[, variables[, where[, orderBy[, directions[, basePath]]]]]): Sets the navigation offsets of the CoastWatch POES AVHRR CWF or HDF files listed in a table to the values specified by two fields.

SetNavigationOffsetsList( coastWatchFileList, navOffsetXList, navOffsetYList[, variables[, basePath]]): Sets the navigation offsets of a list of CoastWatch POES AVHRR CWF or HDF files to the values specified in two parallel lists.

SetNavigationOffsetsTable( connection, table, coastWatchFileField, navOffsetXField, navOffsetYField[, variables[, where[, orderBy[, directions[, basePath]]]]]): Sets the navigation offsets of the CoastWatch POES AVHRR CWF or HDF files listed in a table to the values specified by two fields.

ToArcGISRaster( coastWatchFile, variable, outputRaster[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudMaskFile[, cloudVariable[, sunZenithFile[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, mapAlgebraExpression[, buildPyramids[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to an ArcGIS raster.

ToArcGISRasterArcGISTable( table, coastWatchFileField, variableField, outputRasterField[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, mapAlgebraExpression[, buildPyramids[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): 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.

ToArcGISRasterList( coastWatchFileList, variableList, outputRasterList[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudMaskFileList[, cloudVariable[, sunZenithFileList[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, mapAlgebraExpression[, buildPyramids[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): Creates an ArcGIS raster from each CoastWatch POES AVHRR image listed in two parallel lists, where the first list specifies the files containing the images and the second specifies the variables that represent the images.

ToArcGISRasterTable( connection, table, coastWatchFileField, variableField, outputRasterField[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, projectedCoordinateSystem[, geographicTransformation[, resamplingTechnique[, projectedCellSize[, registrationPoint[, clippingRectangle[, mapAlgebraExpression[, buildPyramids[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): 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.

ToBinaryRaster( coastWatchFile, variable, outputFile[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudMaskFile[, cloudVariable[, sunZenithFile[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, overwriteExisting]]]]]]]]]]]]]]]]]]]]]]]]]): Extracts and converts CoastWatch POES AVHRR image, specified by a file plus a variable in that file, to a binary raster.

ToBinaryRasterArcGISTable( table, coastWatchFileField, variableField, outputFileField[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): 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.

ToBinaryRasterList( coastWatchFileList, variableList, outputFileList[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudMaskFileList[, cloudVariable[, sunZenithFileList[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]): Creates a binary raster from each CoastWatch POES AVHRR image listed in two parallel lists, where the first list specifies the files containing the images and the second specifies the variables that represent the images.

ToBinaryRasterTable( connection, table, coastWatchFileField, variableField, outputFileField[, skipMaskingForGraphicsVariable[, skipCloudMaskingForCloudVariable[, maskLand[, cloudMaskFileField[, cloudVariable[, sunZenithFileField[, sunZenithVariable[, useDayCloudTest1[, useDayCloudTest2[, useDayCloudTest3[, useDayCloudTest4[, useDayCloudTest5[, useDayCloudTest6[, useDayCloudTest7[, maskWhenDayCloudMaskExceeds[, useNightCloudTest1[, useNightCloudTest2[, useNightCloudTest3[, useNightCloudTest4[, useNightCloudTest5[, useNightCloudTest6[, useNightCloudTest7[, maskWhenNightCloudMaskExceeds[, minCloudyNeighbors[, where[, orderBy[, directions[, skipExisting[, overwriteExisting[, basePath]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]): 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.

ToCoastWatchHDF( inputFiles, outputHDFFile[, variablesToImport[, overwriteExisting]]): Creates a CoastWatch HDF by importing images from a list of CoastWatch POES AVHRR CWFs or HDFs.

ToCoastWatchHDFArcGISTable( table, inputFilesField, outputDirectory[, outputFileField[, variablesToImport[, outputFilePythonExpression[, modulesToImport[, where[, skipExisting[, overwriteExisting[, basePath]]]]]]]]): Creates CoastWatch HDFs in a specified output directory by importing images from the CoastWatch POES AVHRR CWFs or HDFs listed in a table.

ToCoastWatchHDFList( inputFiles, outputDirectory[, variablesToImport[, outputFilePythonExpression[, modulesToImport[, skipExisting[, overwriteExisting[, basePath]]]]]]): Creates CoastWatch HDFs in a specified output directory by importing images from a list of CoastWatch POES AVHRR CWFs or HDFs.

ToCoastWatchHDFTable( connection, table, inputFilesField, outputDirectory[, outputFileField[, variablesToImport[, outputFilePythonExpression[, modulesToImport[, where[, skipExisting[, overwriteExisting[, basePath]]]]]]]]): Creates CoastWatch HDFs in a specified output directory by importing images from the CoastWatch POES AVHRR CWFs or HDFs listed in a table.

CoastWatchAVHRR Class

Classmethods

`CoastWatchAVHRR` Class