12/11/2023 0 Comments Make netcdf raster layer iterator arc![]() ![]() Only locations within the study area will have points created in the output netCDF file. The Input study area polygons parameter can be used to limit the interpolation results to a specific study area rather than showing a full cube of results. Similarly, an additional row or column of points will be created if the spacing distances do not evenly divide the y- or z-extents. For example, if the output extent for x is specified as 0 through 10 and the X spacing parameter is specified as 3, the output will have 4 rows in the x-extent: 0, 3, 6, 9, and 12. If any of the spacing distances do not evenly divide the corresponding dimension of the output extent, one row or column of points will be created beyond the output extent. The remaining points are created by iterating the X spacing, Y spacing, and Elevation spacing parameter distances through the dimensions of the output extent. If 3D gridded points is specified for the Export locations parameter, the first point is created at the minimum x-, minimum y-, and minimum z-coordinate of the Output extent environment. The default output extent of the Output netCDF file parameter is the union of the extents of all Input 3D geostatistical layers. If the elevations are stored as an attribute field rather than Shape.Z, you can convert them to 3D points using the Feature To 3D By Attribute tool. The 3D point locations must have their elevations stored in the Shape.Z geometry attribute. To use this option, specify Custom 3D points for the Export locations parameter, and add 3D point features to the 3D point locations parameter to specify the locations to export. Predict to custom 3D locations-Predictions will be exported to custom 3D locations defined by 3D point features.The X spacing, Y spacing, and Elevation spacing parameters specify the distance between each gridded point in the x, y, and z (elevation) dimensions. To use this option, specify 3D gridded points for the Export locations parameter. Predict to 3D gridded points-Predictions will be exported to gridded points in 3D.You can choose locations to predict and export in either of the following ways: The voxel layer requires gridded locations in order to render.Īll Input 3D geostatistical layers must be 3D geostatistical layers created using Empirical Bayesian Kriging 3D. ![]() To render the Output netCDF file as a voxel layer, set the Export locations parameter to 3D gridded points. It can also be added to a map or scene as a feature or raster layer using the Make NetCDF Feature Layer tool or Make NetCDF Raster Layer tool, respectively. To render the output as a voxel layer, it must be added to a local scene with the same horizontal and vertical coordinate system as the netCDF file. The Output netCDF file parameter will not automatically add layers to the map or scene. ![]()
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