Remote Sensing (Feb 2022)

Image Correction and In Situ Spectral Calibration for Low-Cost, Smartphone Hyperspectral Imaging

  • Matthew Davies,
  • Mary B. Stuart,
  • Matthew J. Hobbs,
  • Andrew J. S. McGonigle,
  • Jon R. Willmott

DOI
https://doi.org/10.3390/rs14051152
Journal volume & issue
Vol. 14, no. 5
p. 1152

Abstract

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Developments in the portability of low-cost hyperspectral imaging instruments translate to significant benefits to agricultural industries and environmental monitoring applications. These advances can be further explicated by removing the need for complex post-processing and calibration. We propose a method for substantially increasing the utility of portable hyperspectral imaging. Vertical and horizontal spatial distortions introduced into images by ‘operator shake’ are corrected by an in-scene reference card with two spatial references. In situ light-source-independent spectral calibration is performed. This is achieved by a comparison of the ground-truth spectral reflectance of an in-scene red–green–blue target to the uncalibrated output of the hyperspectral data. Finally, bias introduced into the hyperspectral images due to the non-flat spectral output of the illumination is removed. This allows for low-skilled operation of a truly handheld, low-cost hyperspectral imager for agriculture, environmental monitoring, or other visible hyperspectral imaging applications.

Keywords