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r3.cross.rast

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r3.cross.rast: Creates cross section 2D raster map from 3d raster map based on 2D elevation map

NAME

r3.cross.rast - Creates cross section 2D raster map from 3d raster map based on 2D elevation map

KEYWORDS

raster3d, voxel

SYNOPSIS

r3.cross.rast r3.cross.rast help r3.cross.rast [-m] input=string elevation=string output=string [--overwrite] [--verbose] [--quiet] Flags: -m Use g3d mask (if exists) with input map --overwrite Allow output files to overwrite existing files --verbose Verbose module output --quiet Quiet module output Parameters: input=string Input 3D raster map for cross section. elevation=string 2D elevation map used to create the cross section map output=string Resulting cross section 2D raster map
DESCRIPTION
This module creates a cross section 2D map from one G3D raster volume map based on a 2D elevation map. It checks if the value of the elevation map is located in the z-coordinate space of the 3D map. If so, the 3D voxel value for this position is transferred to the related cross section output map cell, otherwise the NULL value is set. | How r3.cross.rast works If the 2D and 3D region settings are different, the 2D resolution will be adjust to the 3D resolution.
NOTES
To create a cut plane elevation map use r.mapcalc. Some examples: To create a cut plane elevation map in x direction type r.mapcalc "cutplane = col()*x", x be the value for the elevation. If the range of col() is 1 ... 10, the elevation map has the range 1 ... 10 if x == 1 and if x == 10 the range 10 To create a cut plane elevation map in y direction type r.mapcalc "cutplane = row()*x", x be the value for the elevation. If the range of col() is 1 ... 10, the elevation map has the range 1 ... 10 if x == 1 and if x == 10 the range 10 The user can also make a cut in y and x direction with r.mapcalc by using r.mapcalc "cutplane = (row()+col())*x"

EXAMPLE

Simple Spearfish example g.region -d g.region res=150 res3=150 t=1000 b=0 tbres=100 # synthetic data, could be geological structures: r3.mapcalc "map3d=sin(row())+sin(col())+sin(depth()*depth())" #create a cutplane map r.mapcalc "cutplane = col()*10" #create the cross section map r3.cross.rast input=map3d elevation=cutplane output=crosssection

SEE ALSO

g.region r.mapcalc r3.mapcalc r3.to.rast

AUTHOR

Soeren Gebbert Last changed: $Date: 2010-09-24 14:00:12 +0200 (Fri, 24 Sep 2010) $ Full index (C) 2003-2010 GRASS Development Team R3.CROSS.RAST(1)
 
 
 

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