Atmospheric correction algorithms for hyperspectral remote sensing data of land and ocean

Hyperspectral imaging data have been collected with different types of imaging spectrometers from aircraft and satellite platforms since the mid-1980s. Because the solar radiation on the sun-surface-sensor path in the 0.4–2.5 µm visible and near-IR spectral regions is subject to absorption and scatt...

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Published inRemote sensing of environment Vol. 113; pp. S17 - S24
Main Authors Gao, Bo-Cai, Montes, Marcos J., Davis, Curtiss O., Goetz, Alexander F.H.
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.09.2009
Subjects
Atmospheric correction
AVIRIS
Hyperspectral
Imaging spectrometer
Remote sensing
AVIRIS
Atmospheric correction
Hyperspectral
Imaging spectrometer
Remote sensing
Online AccessGet full text
ISSN0034-4257
1879-0704
DOI10.1016/j.rse.2007.12.015

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Abstract Hyperspectral imaging data have been collected with different types of imaging spectrometers from aircraft and satellite platforms since the mid-1980s. Because the solar radiation on the sun-surface-sensor path in the 0.4–2.5 µm visible and near-IR spectral regions is subject to absorption and scattering by atmospheric gases and aerosols, the hyperspectral imaging data contains atmospheric effects. In order to use hyperspectral imaging data for quantitative remote sensing of land surfaces and ocean color, the atmospheric effects must be removed. Over the years, atmospheric correction algorithms have evolved from the earlier empirical line method and the flat field method to more recent methods based on rigorous radiative transfer modeling approaches. Here, a review of hyperspectral atmospheric correction techniques is presented. Issues related to spectral smoothing are discussed. Suggestions for improvements to the present atmospheric correction algorithms, mainly the addition of a module for modeling atmospheric nitrogen dioxide absorption effects in the visible, are given.
AbstractList Hyperspectral imaging data have been collected with different types of imaging spectrometers from aircraft and satellite platforms since the mid-1980s. Because the solar radiation on the sun-surface-sensor path in the 0.4-2.5 ?m visible and near-IR spectral regions is subject to absorption and scattering by atmospheric gases and aerosols, the hyperspectral imaging data contains atmospheric effects. In order to use hyperspectral imaging data for quantitative remote sensing of land surfaces and ocean color, the atmospheric effects must be removed. Over the years, atmospheric correction algorithms have evolved from the earlier empirical line method and the flat field method to more recent methods based on rigorous radiative transfer modeling approaches. Here, a review of hyperspectral atmospheric correction techniques is presented. Issues related to spectral smoothing are discussed. Suggestions for improvements to the present atmospheric correction algorithms, mainly the addition of a module for modeling atmospheric nitrogen dioxide absorption effects in the visible, are given.
Hyperspectral imaging data have been collected with different types of imaging spectrometers from aircraft and satellite platforms since the mid-1980s. Because the solar radiation on the sun-surface-sensor path in the 0.4–2.5 µm visible and near-IR spectral regions is subject to absorption and scattering by atmospheric gases and aerosols, the hyperspectral imaging data contains atmospheric effects. In order to use hyperspectral imaging data for quantitative remote sensing of land surfaces and ocean color, the atmospheric effects must be removed. Over the years, atmospheric correction algorithms have evolved from the earlier empirical line method and the flat field method to more recent methods based on rigorous radiative transfer modeling approaches. Here, a review of hyperspectral atmospheric correction techniques is presented. Issues related to spectral smoothing are discussed. Suggestions for improvements to the present atmospheric correction algorithms, mainly the addition of a module for modeling atmospheric nitrogen dioxide absorption effects in the visible, are given.
Author Montes, Marcos J.
Davis, Curtiss O.
Gao, Bo-Cai
Goetz, Alexander F.H.
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  surname: Gao
  fullname: Gao, Bo-Cai
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  organization: Remote Sensing Division, Naval Research Laboratory, Washington, DC 20375 USA
– sequence: 2
  givenname: Marcos J.
  surname: Montes
  fullname: Montes, Marcos J.
  organization: Remote Sensing Division, Naval Research Laboratory, Washington, DC 20375 USA
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  surname: Davis
  fullname: Davis, Curtiss O.
  organization: College of Oceanic and Atmospheric Sciences, Oregon State University, Corvallis, OR 97331 USA
– sequence: 4
  givenname: Alexander F.H.
  surname: Goetz
  fullname: Goetz, Alexander F.H.
  organization: Analytical Spectral Devices, Inc., 5335 Sterling Drive, Boulder, CO 80301 USA
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IngestDate Wed Oct 01 14:00:34 EDT 2025
Tue Oct 07 07:57:40 EDT 2025
Wed Oct 01 02:18:00 EDT 2025
Thu Apr 24 23:12:13 EDT 2025
Fri Feb 23 02:25:46 EST 2024
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Keywords AVIRIS
Atmospheric correction
Hyperspectral
Imaging spectrometer
Remote sensing
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Snippet Hyperspectral imaging data have been collected with different types of imaging spectrometers from aircraft and satellite platforms since the mid-1980s. Because...
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SubjectTerms Atmospheric correction
AVIRIS
Hyperspectral
Imaging spectrometer
Remote sensing
Title Atmospheric correction algorithms for hyperspectral remote sensing data of land and ocean
URI https://dx.doi.org/10.1016/j.rse.2007.12.015
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