1gdal_pansharpen(1) General Commands Manual gdal_pansharpen(1)
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6 gdal_pansharpenPerform a pansharpen operation.
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8 (Since GDAL 2.1)
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11 gdal_pansharpen [--help-general] pan_dataset {spectral_dataset[,band=num]}+ out_dataset
12 [-of format] [-b band]* [-w weight_val]*
13 [-r {nearest,bilinear,cubic,cubicspline,lanczos,average}]
14 [-threads {ALL_CPUS|number}] [-bitdepth val] [-nodata val]
15 [-spat_adjust {union,intersection,none,nonewithoutwarning}]
16 [-co NAME=VALUE]* [-q]
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19 The gdal_pansharpen.py script performs a pan-sharpening operation. It
20 can create a 'classic' output dataset (such as GeoTIFF), or a VRT
21 dataset describing the pan-sharpening operation.
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23 More details can be found in the VRT tutorial.
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25 -of format:
26 Select the output format. Starting with GDAL 2.3, if not specified,
27 the format is guessed from the extension (previously was GTiff).
28 Use the short format name. 'VRT' can also be used.
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30 -b band:
31 Select band band from the input spectral bands for output. Bands
32 are numbered from 1 in the order spectral bands are specified.
33 Multiple -b switches may be used. When no -b switch is used, all
34 input spectral bands are set for output.
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36 -w weight_val:
37 Specify a weight for the computation of the pseudo panchromatic
38 value. There must be as many -w switches as input spectral bands.
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40 -r {nearest,bilinear,cubic (default),cubicspline,lanczos,average}:
41 Select a resampling algorithm.
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43 -threads {ALL_CPUS,number}:
44 Specify number of threads to use to do the resampling and pan-
45 sharpening itself. Can be an integer number or ALL_CPUS.
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47 -bitdepth val:
48 Specify the bit depth of the panchromatic and spectral bands (e.g.
49 12). If not specified, the NBITS metadata item from the
50 panchromatic band will be used if it exists.
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52 -nodata val:
53 Specify nodata value for bands. Used for the resampling and pan-
54 sharpening computation itself. If not set, deduced from the input
55 bands, provided they have a consistent setting.
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57 -spat_adjust {union (default),intersection,none,nonewithoutwarning}:
58 Select behaviour when bands have not the same extent. See
59 SpatialExtentAdjustment documentation in VRT tutorial
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61 -co 'NAME=VALUE':
62 Passes a creation option to the output format driver. Multiple -co
63 options may be listed. See format specific documentation for legal
64 creation options for each format.
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66 -q:
67 Suppress progress monitor and other non-error output.
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69 pan_dataset
70 Dataset with panchromatic band (first band will be used).
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72 spectral_dataset[,band=num]
73 Dataset with one or several spectral bands. If the band option is
74 not specified, all bands of the datasets are taken into account.
75 Otherwise, only the specified (num)th band. The same dataset can be
76 repeated several times.
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78 out_dataset
79 Output dataset
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81 Bands should be in the same projection.
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84 With spectral bands in a single dataset :
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86 gdal_pansharpen.py panchro.tif multispectral.tif pansharpened_out.tif
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89 With a few spectral bands from a single dataset, reordered :
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91 gdal_pansharpen.py panchro.tif multispectral.tif,band=3 multispectral.tif,band=2 multispectral.tif,band=1 pansharpened_out.tif
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94 With spectral bands in several datasets :
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96 gdal_pansharpen.py panchro.tif band1.tif band2.tif band3.tif pansharpened_out.tif
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99 Specify weights:
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101 gdal_pansharpen.py -w 0.7 -w 0.2 -w 0.1 panchro.tif multispectral.tif pansharpened_out.tif
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104 Specify RGB bands from a RGBNir multispectral dataset while computing
105 the pseudo panchromatic intensity on the 4 RGBNir bands:
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107 gdal_pansharpen.py -b 1 -b 2 -b 3 panchro.tif rgbnir.tif pansharpened_out.tif
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111 Even Rouault <even.rouault at spatialys.com>
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115GDAL Mon Feb 11 2019 gdal_pansharpen(1)