As you can see, the rendering is not very informative, due to the way values are distributed. It contains those values only within the area of a given watershed, with no–data values outside of it. This layer contains values of accumulated flow, a hydrological parameter. Let’s now perform another calculation, this time on the accflow layer. The input layer that we used has valid values in all its cells, so the last parameter has no effect at all. You will get a layer that has the same appearance of the input layer, but with different values. Now open the toolbox and open the dialog corresponding to the raster calculator.įor non English users: use always “.”, not “,”.Ĭlick Run to run the algorithm. Open the QGIS project corresponding to this lesson and you will see that it contains several raster layers. Understanding that is important to later get the expected results when using the calculator, and also to understand certain techniques that are commonly applied with it. This will let us see how it is used and how it deals with some particular situations that it might find. In this lesson we will be performing some calculation with the raster calculator, most of them rather simple. It’s a very flexible and versatile algorithm that can be used for many different calculations, and one that will soon become an important part of your toolbox. The raster calculator is one of the most powerful algorithms that you will find. We will also explain what are no–data values and how the calculator and other algorithms deal with them In this lesson we will see how to use the raster calculator to perform some operations on raster layers. Using modeler-only tools for creating a model Module: Spatial Database Concepts with PostGIS Module: Database Concepts with PostgreSQL Module: Creating and Exploring a Basic Map
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