![]() ![]() It reaches peaks (maximum values) within the centers of each patch of the original raster and decays to zero along the patch boundaries, still shown with black. The black areas are the cells with focal varieties of 2 or greater (computed at step 2):Ī hillshaded Euclidean distance grid looks like this: ![]() To illustrate, here is a small piece of a grid colored by cell type. ![]() (Optional) Add the cellsize to the distance grid.Įxtract the values at any points you choose. Nullify all locations with a focal variety of 1 or less: these are the "inside" cells.Ĭompute the Euclidean distance grid to all remaining cells: these are the distances to locations along boundaries. If you can live with such an approximation, here's the workflow:Ĭompute a focal variety grid using as small a neighborhood as possible, which would be a 2 by 2 square neighborhood. Select the menu View Toolbars Raster to show the Raster Toolbar if it is not visible. After activation, the heatmap icon can be found in the Raster Toolbar, and under the Raster Heatmap menu. Surface Parameters also provides an adaptive window option that. Larger window sizes are useful with high resolution elevation data to capture land surface processes at an appropriate scale. Well, this is not quite true, but it's close: you might want to add approximately one cell width to such a distance. First this core plugin needs to be activated using the Plugin Manager (see The Plugins Dialog ). The Slope tool uses a 3 by 3 window of cells to compute the value, while the Surface Parameters tool allows window sizes from 3 by 3 to 15 by 15 cells. The idea is that the distance to the nearest different cell equals the distance to the nearest location whose immediate neighborhood contains more than one cell type. I don't believe there's a single command to do this, but we can still accomplish it expediently. ![]()
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