NAME¶

r3.in.lidar - Creates a 3D raster map from LAS LiDAR points

KEYWORDS¶

3D raster, import, LIDAR

SYNOPSIS¶

r3.in.lidar
r3.in.lidar --help
r3.in.lidar [-dv] input=name n=name sum=name mean=name proportional_n=name proportional_sum=name [return_filter=string] [class_filter=integer[,integer,...]] [base_raster=name] [--overwrite] [--help] [--verbose] [--quiet] [--ui]

Flags:¶

-d: Use base raster actual resolution instead of computational region
-v: Use only valid points
Points invalid according to APSRS LAS specification will be filtered out
--overwrite: Allow output files to overwrite existing files
--help: Print usage summary
--verbose: Verbose module output
--quiet: Quiet module output
--ui: Force launching GUI dialog

Parameters:¶

input=name [required]: LAS input file
LiDAR input file in LAS format (*.las or *.laz)
n=name [required]: Count of points per cell
Name for output 3D raster map
sum=name [required]: Sum of values of point intensities per cell
Name for output 3D raster map
mean=name [required]: Mean of point intensities per cell
Name for output 3D raster map
proportional_n=name [required]: 3D raster map of proportional point count
Point count per 3D cell divided by point count per vertical column
proportional_sum=name [required]: 3D raster map of proportional sum of values
Sum of values per 3D cell divided by sum of values per vertical column
return_filter=string: Only import points of selected return type
If not specified, all points are imported
Options: first, last, mid
class_filter=integer[,integer,...]: Only import points of selected class(es)
Input is comma separated integers. If not specified, all points are imported.
base_raster=name: Subtract raster values from the z coordinates
The scale for z is applied beforehand, the filter afterwards

DESCRIPTION¶

Figure: Proportional count of points per 3D cell. When 50% of all points in a vertical column fall into a given 3D cell, the value is 0.5. Here, the green color was assigned to 0.5, red to 1 and yellow to 0. The figure shows vertical slices and green color indicates high vegetation while red color indicates bare ground.

NOTES¶

This module is highly experimental. Don’t rely on its functionality or interface. Please report issues on the mailing list or in the bug tracker.
No projection check or reprojection is performed, make sure you are using data in the right projection for your GRASS Location.
Selection of points according to return or class is not yet supported.
All outputs are currently mandatory.
Some temporary maps are created but not cleaned up.
Expects points to have intensity (random result for related outputs when they don’t).

EXAMPLES¶

Set the region according to a 2D raster and adding 3D minimum (bottom), maximum (top) and vertical (top-bottom) resolution.


g.region rast=secref b=80 t=160 tbres=5 -p3

Now, r3.in.lidar will create the 3D raster of the size given by the computation region:


r3.in.lidar input=points.las n=points_n sum=points_sum \
    mean=points_mean proportional_n=points_n_prop \
    proportional_sum=points_sum_prop

Point density vertical structure reduced to the terrain¶

Create ground raster:


r.in.lidar input=points.las output=ground method=mean class_filter=2

Set vertical extent of computational region to (relative) coordinates above ground:


g.region rast=secref b=0 t=47 -p3

Compute point density:


r3.in.lidar input=points.las n=points_n sum=points_sum \
    mean=points_mean proportional_n=points_n_prop \
    proportional_sum=points_sum_prop \
    base_raster=ground

REFERENCES¶

V. Petras, A. Petrasova, J. Jeziorska, H. Mitasova (2016): Processing UAV and lidar point clouds in GRASS GIS. XXIII ISPRS Congress 2016 [ISPRS Archives, ResearchGate]
ASPRS LAS format
LAS library
LAS library C API documentation

AUTHOR¶

Vaclav Petras, NCSU GeoForAll Lab

Last changed: $Date: 2016-08-22 04:16:33 +0200 (Mon, 22 Aug 2016) $

SOURCE CODE¶

Available at: r3.in.lidar source code (history)

GRASS 7.2.0

Source file:	r3.in.lidar.1grass.en.gz (from grass-doc 7.2.0-2)
Source last updated:	2017-04-02T21:38:40Z
Converted to HTML:	2019-06-03T07:34:04Z