![]() ![]() ![]() The canopy height model (CHM) represents the HEIGHT of the trees. To begin, be sure that you have the digital terrain model data/spatial-vector-lidar/california/neon-soap-site/2013/lidar/SOAP_lidarDTM.tif open already. with the influence of ground elevation removed. The CHM represents the actual height of trees, buildings, etc. One way to derive a CHM is to take the difference between the digital surface model (DSM, tops of trees, buildings and other objects) and the Digital Terrain Model (DTM, ground level). If you subtract elevation from the top of the earth’s surface then you can get tree (and building) heights! Digital Surface Model (DSM), Digital Elevation Models (DEM) and the Canopy Height Model (CHM) are the most common raster format lidar derived data products. In this example we have a lidar digital surface model and an elevation model. In this lesson you’ll learn how to subtract one raster from another. In the previous lesson you learned how to open and plot raster data. Import os import numpy as np import matplotlib.pyplot as plt import rasterio as rio from ot import show from ot import show_hist from shapely.geometry import Polygon, mapping from rasterio.mask import mask import earthpy as et import earthpy.spatial as es import ot as ep from lors import ListedColormap import lors as colors # set home directory and download dataĮt. ![]()
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