Pansharpening function

Overview

The Pansharpening function uses a higher-resolution panchromatic image or raster band to fuse with a lower-resolution, multiband raster dataset to increase the spatial resolution of the multiband image.

To learn about pan sharpening, see Fundamentals of panchromatic sharpening.

To learn about pan sharpening, see Fundamentals of panchromatic sharpening.

Notes

The purpose of pan sharpening is to create a higher quality visual image. Since the techniques alter the radiometry and spectral characteristics of the multiband imagery, pan sharpened imagery needs to be used with caution for analytical remote sensing purposes.

If you do not want to use the infrared image as part of the Esri method for pan sharpening, you can remove the text from the parameter's text box.

The weights used for each band are relative, and will be normalized when they are used.

The Pansharpening function can be used in a mosaic dataset.

Parameters

ParametersDescription

Panchromatic

The high-resolution, single-band raster dataset that will be used to pan sharpen the lower-resolution multispectral raster.

Multispectral

The multispectral raster dataset that you want to sharpen using the panchromatic band.

Infrared

A raster that represents the near-infrared band in the pan sharpening process.

Use the fourth band

Check this box to use the fourth band of the multispectral raster as the infrared band.

Method

Choose the pan sharpening algorithm you want to use.

  • Brovey—Uses the Brovey algorithm based on spectral modeling for data fusion.
  • Esri—Uses the Esri algorithm based on spectral modeling for data fusion.
  • Gram-Schmidt—Uses the Gram-Schmidt spectral-sharpening algorithm to sharpen multispectral data.
  • IHS—Uses Intensity, Hue, and Saturation color space for data fusion.
  • Mean—Uses the averaged value between the red, green, and blue values and the panchromatic pixel value.

Sensor

When the Gram-Schmidt algorithm is chosen, you can also specify the sensor that collected the multiband raster input. Choosing the sensor type will set appropriate band weights.

Red-Band Weight

Specify the weight for the red band. The value should be within the range of 0 to 1.

Green-Band Weight

Specify the weight for the green band. The value should be within the range of 0 to 1.

Blue-Band Weight

Specify the weight for the blue band. The value should be within the range of 0 to 1.

IR-Band Weight

Specify the weight for the infrared band. The value should be within the range of 0 to 1.

ParametersDescription

Multispectral

The multispectral raster dataset that you want to sharpen using the panchromatic band.

Panchromatic

The high-resolution, single-band raster dataset that will be used to pan sharpen the lower-resolution multispectral raster.

Pansharpening Type

Choose the pan sharpening algorithm you want to use.

  • Brovey—Uses the Brovey algorithm based on spectral modeling for data fusion.
  • Esri—Uses the Esri algorithm based on spectral modeling for data fusion.
  • Gram-Schmidt—Uses the Gram-Schmidt spectral-sharpening algorithm to sharpen multispectral data.
  • IHS—Uses Intensity, Hue, and Saturation color space for data fusion.
  • Mean—Uses the averaged value between the red, green, and blue values and the panchromatic pixel value.

Sensor

When the Gram-Schmidt algorithm is chosen, you can also specify the sensor that collected the multiband raster input. Choosing the sensor type will set appropriate band weights.

Red-Band Weight

Specify the weight for the red band. The value should be within the range of 0 to 1.

Green-Band Weight

Specify the weight for the green band. The value should be within the range of 0 to 1.

Blue-Band Weight

Specify the weight for the blue band. The value should be within the range of 0 to 1.

IR-Band Weight

Specify the weight for the infrared band. The value should be within the range of 0 to 1.

Related topics


In this topic
  1. Overview
  2. Notes
  3. Parameters