![]() For example, when the output is a different pixel type than the input (such as 16 bit to 8 bit), you can choose to have the values scaled to fit into the new range otherwise, the values that do not fit into the new pixel range will be discarded. If the pixel type is demoted (lowered), the raster values outside the valid range for that pixel depth will be truncated and lost. The Scale Pixel Value option appears when a different pixel type is chosen, which can be used to scale your pixel type from one bit depth to another. The default value is automatically populated with the pixel type of the source raster layer. Set the Pixel Type that determines the bit depth of the output raster dataset.The default value is automatically populated with the number of columns and rows of the source raster layer. Set the Raster Size for the output raster dataset.The default value is automatically populated with the pixel size of the source raster layer. Expand the Raster Properties expander and set the Cell Size for the output raster dataset.Maintains the pixel alignment as the input raster and adjusts the output extent accordingly.Īdjusts the number of columns and rows and resamples pixels to exactly match the clipping extent specified. Use the Maintain Clipping Extent option to specify the extent to use in the clipping output.The Use Input Features for Clipping Geometry option, with clipping options to Input feature is provided, a check box appears with Use the Browse button to browse to the folder location of theįeature class you want to use for Clipping Geometry. ![]() You enter the coordinates of the minimum bounding rectangle: type the extent for Left, Right, Top, and Bottom.Īll layers are listed, and you can choose one to use as theĪs with the Current Display Extent option, the extent of the The extent of the current display will be used.Įxample, if you are zoomed in to your particular study area, youĬan use this option to process features that fall within the Referencing specifications of the raster dataset. This option will export the raster dataset using the spatial Choose the appropriate Clipping Geometry option to use for the exported raster.The application will only use those transformations appropriate to the projection, all others will be ignored. ![]() Select the appropriate Geographic Transformation when your data is transformed between different coordinate systems.If you want to change the coordinate system, click the Coordinate System button to open the Spatial Reference dialog box. If a vertical coordinate system is associated with the source raster, it will be displayed as an option for selection. The Coordinate System field is automatically populated with the coordinate system of the source raster layer that is being exported.Process As Multidimensional must be checked to use this option. When you perform a transpose, the data will be subsectioned along dimensions rather than by slice and tile to optimize performance, making analysis such as temporal profiling faster. By default, a CRF file stores each multidimensional slice in a separate folder and each slice is subsectioned into tiles. Build Multidimensional Transpose-Use this option to build the transpose for the input multidimensional raster layer to optimize data access.The input will be processed as a multidimensional raster dataset and all slices of the variable in the layer will be processed to produce a new multidimensional raster dataset. ![]()
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