table of contents
- stretch 7.2.0-2
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| i.colors.enhance(1grass) | Grass User's Manual | i.colors.enhance(1grass) |
NAME¶
i.colors.enhance - Performs auto-balancing of colors for RGB images.KEYWORDS¶
imagery, RGB, satellite, colorsSYNOPSIS¶
i.colors.enhancei.colors.enhance --help
i.colors.enhance [-fprs] red=name green=name blue=name [strength=float] [--help] [--verbose] [--quiet] [--ui]
Flags:¶
- -f
-
Extend colors to full range of data on each channel - -p
-
Preserve relative colors, adjust brightness only - -r
-
Reset to standard color range - -s
-
Process bands serially (default: run in parallel) - --help
-
Print usage summary - --verbose
-
Verbose module output - --quiet
-
Quiet module output - --ui
-
Force launching GUI dialog
Parameters:¶
- red=name [required]
-
Name of red channel - green=name [required]
-
Name of green channel - blue=name [required]
-
Name of blue channel - strength=float
-
Cropping intensity (upper brightness level)
Options: 0-100
Default: 98
DESCRIPTION¶
i.colors.enhance auto-balances and enhances the color channels of a RGB image (e.g. from Landsat) to provide a more natural color mixture. Only the color table of each image band is modified, the base data remains untouched.The module works by calculating a histogram for each color channel and removing an adjustable amount of outliers from either end before recalibrating the color scale with r.colors.
It will work with any 8-bit RGB imagery set and the script is easily modified to work with other datasets of greater band-depth.
NOTES¶
Depending on the image, it may or may not be advantageous to use the -p flag to preserve the relative color scaling. You will have to experiment with the different options to find a setting that works best for your particular imagery.The strength option should generally be set in the 90-99 range. The lower the number, the more saturated the image becomes. It represents the percentage cut-off for the top end of the color histogram curve. The lower end is fixed at 2% of the area under the curve.
For quicker execution of this module on large images you can achieve largely similar results by switching to a coarser resolution before the running of the module (using g.region) and then back to the original resolution afterwards.
EXAMPLE¶
North Carolina sample dataset example with Landsat data:g.region raster=lsat7_2002_10 -p d.rgb blue=lsat7_2002_10 green=lsat7_2002_20 red=lsat7_2002_30 d.barscale at=55.3125,93.125 bcolor=white text_pos=over i.colors.enhance blue=lsat7_2002_10 green=lsat7_2002_20 red=lsat7_2002_30 strength=95 d.rgb blue=lsat7_2002_10 green=lsat7_2002_20 red=lsat7_2002_30 d.barscale at=55.3125,93.125 bcolor=white text_pos=over
Uncorrected RGB composite of Landsat ETM channels B/G/R
Color corrected RGB composite of Landsat ETM channels B/G/R
TODO¶
The strength option requires further refinement.SEE ALSO¶
d.rgb, g.region, i.oif, r.colors, r.composite, r.univarAUTHORS¶
Markus Neteler, Trento, ItalyM. Hamish Bowman, Dept. Marine Science, Otago University, New Zealand
Last changed: $Date: 2014-12-19 22:17:36 +0100 (Fri, 19 Dec 2014) $
SOURCE CODE¶
Available at: i.colors.enhance source code (history)Main index | Imagery index | Topics index | Keywords index | Graphical index | Full index
© 2003-2016 GRASS Development Team, GRASS GIS 7.2.0 Reference Manual
| GRASS 7.2.0 |