Note: This document is for an older version of GRASS GIS that is outdated. You should upgrade, and read the current addon manual page.
NAME
r.catchment - Creates a raster buffer of specified area around vector points using cost distances using r.walk.
KEYWORDS
raster,
buffer
SYNOPSIS
r.catchment
r.catchment --help
r.catchment [-kcl] elevation=name [in_cost=name] start_points=name [friction=name] [a=float] [b=float] [c=float] [d=float] [lambda=float] [slope_factor=float] buffer=name [sigma=float] area=integer map_val=integer [--overwrite] [--help] [--verbose] [--quiet] [--ui]
Flags:
- -k
- Use knight's move for calculating cost surface (slower but more accurate)
- -c
- Keep cost surface used to calculate buffers
- -l
- Show a list of all cost surface values and the area of the catchment that they delimit
- --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:
- elevation=name [required]
- Input elevation map (DEM)
- in_cost=name
- Input cost map (This will override the input elevation map, if none specified, one will be created from input elevation map with r.walk)
- start_points=name [required]
- Name of input vector map
- Name of input vector site points map
- friction=name
- Optional map of friction costs. If no map selected, default friction=0 making output reflect time costs only
- Default:
- a=float
- Coefficients for walking energy formula parameters a,b,c,d
- Default: 0.72
- b=float
- Default: 6.0
- c=float
- Default: 1.9998
- d=float
- Default: -1.9998
- lambda=float
- Lambda value for cost distance calculation (for combining friction costs with walking costs)
- Default: 1
- slope_factor=float
- Slope factor determines travel energy cost per height step
- Default: -0.2125
- buffer=name [required]
- Output buffer map
- sigma=float
- Slope threshold for mask
- area=integer [required]
- Area of buffer (Integer value to nearest 100 square map units)
- Default: 5000000
- map_val=integer [required]
- Integer value for output catchment area (all other areas will be Null)
- Default: 1
r.catchment is a module that facilitates modeling
"catchments" around point locations according to a walking cost
function. The module is particularly aimed at "Site Catchment
Analysis" for archaeology, but could be potentially useful in any
number of applications where delimiting an area based on
walking-costs is desirable. Although defining a catchment based on
a threshold in walking-costs (or time) can be undertaken using
r.walk or
r.cost alone, this addon module allows the
user to enter a pre-determined square meterage (option
area)
for the resultant catchment, which is a different approach. This is
useful for applications where the user wants to make a catchment of
a particular size (e.g., certain number of square meters needed for
farmed fields), and doesn't want to spend time via trial and error
experimenting with different cost radii.
Additionally, this module allows the user to enter a slope threshold
(option sigma), which will mask out areas of higher slope.
This is useful for delimiting catchments that are of generally flat
land (e.g., areas where agriculture are likely).
Important: The user must run g.region first to make sure that
the region boundaries and the resolution match the input elevation map.
r.catchment requires an input elevation map,
elevation
, and an input vector points map of starting locations,
start_points.
area is also requited, which is an integer
value for the size of the desired catchment (in the map units of the
defined location/region). The final required parameter is
map_val
, which is the integer value to write to the areas defined as
part of the catchment in the output map,
buffer. The optional
value,
sigma is the slope threshold cut off value. Slopes
above
sigma will be masked out during the determination of
the catchment configuration. There are two native flags for
r.catchment.
-c allows you to keep the interim cost
surface maps made.
-l allows you to show a list of the cost
values in that cost map, along with the size of the catchments they
delineate. All other flags and options are inherited from
r.walk (see the
r.walk
help page for more information on these).
The module will attempt to find the cost radius that defines an area
close to the value of
area, but em will likely slightly
overestimate the catchment size. The module will display the actual
area of the defined catchment in the Command Output.
By default,
r.catchment will create a
friction map
of value 0, which, when input into
r.walk will yield a cost
surface based on walking times only. The user may optionally create
a
friction map, however, and, if used, r.walk will consider
these costs this as well when determining the cost surface used to
determine the catchment.
The input vector points map can be manually digitized (with
v.digit) over topographic or cultural features, or can be
created as a series of random points (with
r.random or
v.random).
In the case of multiple input points, the routine will attempt to
equally divide the area (
area) between all input points to
determine catchments for each point. The total area of all these
catchments will sum (close) to
area. If two input points are
close, their catchments may overlap. In this case, the routine will
"meld" the two, and the melded catchment will still be of an area
close to
area. If truly overlapping catchments are desired,
then the routine should be run independently for each individual
start point.
Delimit a catchment of 5,000,000 square meters around a single start
point, ignoring areas of slope > 15 degrees:
r.catchment elevation=DEM10m start_points=site buffer=test_catchment
sigma=15 area=5000000 map_val=1
r.walk, r.cost
Isaac Ullah
Updated for GRASS 7, 23, Feb. 2015.
SOURCE CODE
Available at:
r.catchment source code
(history)
Latest change: Sun Apr 24 21:36:39 2022 in commit: cfa5cd9d5a0b56e2cd887fdda4dfaac5aa453ca6
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GRASS Development Team,
GRASS GIS 8.0.3dev Reference Manual