This function superimposes a raster grid overtop of an input LiDAR point cloud (input_lidar) of a user-specified resolution (cell_size) and identifies the lowest point in each block. The output raster therefore appoximates a bare-earth digital elevation model (DEM), or a digital terrain model (DTM), although it is likely to contain several off-terrain objects (OTOs), such as buildings. Under heavier forest cover, the minimum-surface will also very likely contain some blocks that are not coinincident with the ground surface, but rather will represent the elevation of the lower position of tree trunks and low vegetation.

Like many of the LiDAR functions, the input LiDAR point cloud (input_lidar) is optional. If an input LiDAR file is not specified, the tool will search for all valid LiDAR (.las, .laz, *.zlidar) files contained within the current working directory. This feature can be very useful when you need to process a large number of LiDAR files contained within a directory. This batch processing mode enables the function to run in a more optimized parallel manner. When run in this batch mode, no output LiDAR object will be created. Instead the function will create an output file (saved to disc) with the same name as each input LiDAR file, but with the .tif extension. This can provide a very efficient means for processing extremely large LiDAR data sets.

See Also

lidar_block_maximum, filterfilter_lidar_by_percentile_lidar

Function Signature

def lidar_block_minimum(self, input_lidar: Optional[Lidar], cell_size: float = 1.0) -> Raster: ...

Project Links

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