Provided by: grass-doc_8.2.0-1build1_all 
NAME
r.mfilter - Performs raster map matrix filter.
KEYWORDS
raster, algebra, statistics, filter, parallel
SYNOPSIS
r.mfilter
r.mfilter --help
r.mfilter [-z] input=name output=name filter=name [repeat=integer] [title=string]
[nprocs=integer] [--overwrite] [--help] [--verbose] [--quiet] [--ui]
Flags:
-z
Apply filter only to null data values
--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]
Name of input raster map
output=name [required]
Name for output raster map
filter=name [required]
Path to filter file
repeat=integer
Number of times to repeat the filter
Default: 1
title=string
Output raster map title
nprocs=integer
Number of threads for parallel computing
Default: 1
DESCRIPTION
r.mfilter filters the raster input to produce the raster output according to the matrix
filter designed by the user (see FILTERS below).
Figure: Illustration for a custom 3x3 filter
The filter is applied repeat times (default value is 1). The output raster map layer can
be given a TITLE if desired. (This TITLE should be put in quotes if it contains more than
one word.)
With -z flag the filter is applied only to null values in the input raster map layer. The
non-null category values are not changed. Note that if there is more than one filter
step, this rule is applied to the intermediate raster map layer -- only null category
values which result from the first filter will be changed. In most cases this will NOT be
the desired result. Hence -z should be used only with single step filters.
The filter parameter defines the name of an existing, user-created UNIX ASCII file whose
contents is a matrix defining the way in which the input file will be filtered. The format
of this file is described below, under FILTERS.
The repeat parameter defines the number of times the filter is to be applied to the input
data.
FILTERS
The filter file is a normal UNIX ASCII file designed by the user. It has the following
format:
TITLE TITLE
MATRIX n
.
n lines of n values
.
DIVISOR d
TYPE S/P
TITLE
A one-line TITLE for the filter. If a TITLE was not specified on the command line, it
can be specified here. This TITLE would be used to construct a TITLE for the
resulting raster map layer. It should be a one-line description of the filter.
MATRIX
The matrix (n x n) follows on the next n lines. n must be an odd integer greater than
or equal to 3. The matrix itself consists of n rows of n values. The values must be
separated from each other by at least 1 blank.
DIVISOR
The filter divisor is d. If not specified, the default is 1. If the divisor is zero
(0), then the divisor is dependent on the category values in the neighborhood (see HOW
THE FILTER WORKS below).
TYPE
The filter type. S means sequential, while P mean parallel. If not specified, the
default is S.
Sequential filtering happens in place. As the filter is applied to the raster map layer,
the category values that were changed in neighboring cells affect the resulting category
value of the current cell being filtered.
Parallel filtering happens in such a way that the original raster map layer category
values are used to produce the new category value.
More than one filter may be specified in the filter file. The additional filter(s) are
described just like the first. For example, the following describes two filters:
EXAMPLE FILTER FILE
TITLE 3x3 average, non-null data only, followed by 5x5 average
MATRIX 3
1 1 1
1 1 1
1 1 1
DIVISOR 0
TYPE P
MATRIX 5
1 1 1 1 1
1 1 1 1 1
1 1 1 1 1
1 1 1 1 1
1 1 1 1 1
DIVISOR 25
TYPE P
HOW THE FILTER WORKS
The filter process produces a new category value for each cell in the input raster map
layer by multiplying the category values of the cells in the n x n neighborhood around the
center cell by the corresponding matrix value and adding them together. If a divisor is
specified, the sum is divided by this divisor. (If a zero divisor was specified, then the
divisor is computed for each cell as the sum of the MATRIX values where the corresponding
input cell is non-null.)
If more than one filter step is specified, either because the repeat value was greater
than one or because the filter file contained more than one matrix, these steps are
performed sequentially. This means that first one filter is applied to the entire input
raster map layer to produce an intermediate result; then the next filter is applied to the
intermediate result to produce another intermediate result; and so on, until the final
filter is applied. Then the output cell is written.
PERFORMANCE
By specifying the number of parallel processes with nprocs option, r.mfilter can run
significantly faster, see benchmarks below.
Figure: Benchmark on the left shows execution time for different number of cells for 9x9
matrix, benchmark on the right shows execution time for 16 billion cells for different
matrix sizes. (Intel Core i9-10940X CPU @ 3.30GHz x 28)
Note that parallelization is implemented only for the parallel filter, not the sequential
one. To take advantage of the parallelization, GRASS GIS needs to compiled with OpenMP
enabled.
NOTES
If the resolution of the geographic region does not agree with the resolution of the
raster map layer, unintended resampling of the original data may occur. The user should
be sure that the geographic region is set properly.
SEE ALSO
g.region, r.clump, r.neighbors, r.resamp.filter,
Raster Parallelization with OpenMP
AUTHORS
Glynn Clements. Based upon r.mfilter, by Michael Shapiro, U.S.Army Construction
Engineering Research Laboratory.
Aaron Saw Min Sern (OpenMP support).
SOURCE CODE
Available at: r.mfilter source code (history)
Accessed: Mon Jun 13 15:09:25 2022
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