Statistics of target spectra in HSI scenes

J. Scott Tyo; J. Robertson; J. Wollenbecker; R. C. Olsen

doi:10.1117/12.406599

Statistics of target spectra in HSI scenes

J. Scott Tyo, J. Robertson, J. Wollenbecker, R. C. Olsen

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Research › peer-review

11 Citations (Scopus)

Abstract

The majority of spectral imagery classifiers make a decision based on information from a particular spectrum, often the mean, that best represents the spectral signature of a particular target. It is known, however, that the spectral signature of a target can vary significantly due to differences in illumination conditions, shape, and material composition. Furthermore, many targets of interest are inherently mixed, as is the case with camouflaged military vehicles, leading to even greater variability. In this paper, a detailed statistical analysis is performed on HYDICE imagery of Davis Monthan AFB. Several hundred pixels are identified as belonging to the same target class and the distribution of spectral radiance within this group is studied. It is found that simple normal statistics do not adequately model either the total radiance or the single band spectral radiance distributions, both of which can have highly skewed histograms even when the spectral radiance is high. Goodness of fit tests are performed for maximum likelihood normal, lognormal, Γ, and Weibull distributions. It is found that lognormal statistics can model the total radiance and many single-band distributions reasonably well, possibly indicative of multiplicative noise features in remotely sensed spectral imagery.

Original language	English
Title of host publication	Imaging Spectrometry VI
Publisher	SPIE - International Society for Optical Engineering
Pages	306-314
Number of pages	9
Volume	4132
Edition	1
DOIs	https://doi.org/10.1117/12.406599
Publication status	Published - 2000
Externally published	Yes
Event	Imaging Spectrometry VI 2000 - San Diego, United States of America Duration: 31 Jul 2000 → 2 Aug 2000 https://www.spiedigitallibrary.org/conference-proceedings-of-spie/4132.toc

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Publisher	SPIE
ISSN (Print)	0277-786X

Conference

Conference	Imaging Spectrometry VI 2000
Country/Territory	United States of America
City	San Diego
Period	31/07/00 → 2/08/00
Internet address	https://www.spiedigitallibrary.org/conference-proceedings-of-spie/4132.toc

Keywords

Hyperspectral Imagery
Scene statistics in spectral imagery
Spectral Imagery

Access to Document

10.1117/12.406599

Cite this

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title = "Statistics of target spectra in HSI scenes",

abstract = "The majority of spectral imagery classifiers make a decision based on information from a particular spectrum, often the mean, that best represents the spectral signature of a particular target. It is known, however, that the spectral signature of a target can vary significantly due to differences in illumination conditions, shape, and material composition. Furthermore, many targets of interest are inherently mixed, as is the case with camouflaged military vehicles, leading to even greater variability. In this paper, a detailed statistical analysis is performed on HYDICE imagery of Davis Monthan AFB. Several hundred pixels are identified as belonging to the same target class and the distribution of spectral radiance within this group is studied. It is found that simple normal statistics do not adequately model either the total radiance or the single band spectral radiance distributions, both of which can have highly skewed histograms even when the spectral radiance is high. Goodness of fit tests are performed for maximum likelihood normal, lognormal, Γ, and Weibull distributions. It is found that lognormal statistics can model the total radiance and many single-band distributions reasonably well, possibly indicative of multiplicative noise features in remotely sensed spectral imagery.",

keywords = "Hyperspectral Imagery, Scene statistics in spectral imagery, Spectral Imagery",

author = "Tyo, {J. Scott} and J. Robertson and J. Wollenbecker and Olsen, {R. C.}",

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doi = "10.1117/12.406599",

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series = "Proceedings of SPIE - The International Society for Optical Engineering",

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pages = "306--314",

booktitle = "Imaging Spectrometry VI",

address = "United States of America",

edition = "1",

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Tyo, JS, Robertson, J, Wollenbecker, J & Olsen, RC 2000, Statistics of target spectra in HSI scenes. in Imaging Spectrometry VI. 1 edn, vol. 4132, Proceedings of SPIE - The International Society for Optical Engineering, SPIE - International Society for Optical Engineering, pp. 306-314, Imaging Spectrometry VI 2000, San Diego, California, United States of America, 31/07/00. https://doi.org/10.1117/12.406599

Statistics of target spectra in HSI scenes. / Tyo, J. Scott; Robertson, J.; Wollenbecker, J. et al.
Imaging Spectrometry VI. Vol. 4132 1. ed. SPIE - International Society for Optical Engineering, 2000. p. 306-314 (Proceedings of SPIE - The International Society for Optical Engineering).

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Research › peer-review

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AU - Olsen, R. C.

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N2 - The majority of spectral imagery classifiers make a decision based on information from a particular spectrum, often the mean, that best represents the spectral signature of a particular target. It is known, however, that the spectral signature of a target can vary significantly due to differences in illumination conditions, shape, and material composition. Furthermore, many targets of interest are inherently mixed, as is the case with camouflaged military vehicles, leading to even greater variability. In this paper, a detailed statistical analysis is performed on HYDICE imagery of Davis Monthan AFB. Several hundred pixels are identified as belonging to the same target class and the distribution of spectral radiance within this group is studied. It is found that simple normal statistics do not adequately model either the total radiance or the single band spectral radiance distributions, both of which can have highly skewed histograms even when the spectral radiance is high. Goodness of fit tests are performed for maximum likelihood normal, lognormal, Γ, and Weibull distributions. It is found that lognormal statistics can model the total radiance and many single-band distributions reasonably well, possibly indicative of multiplicative noise features in remotely sensed spectral imagery.

AB - The majority of spectral imagery classifiers make a decision based on information from a particular spectrum, often the mean, that best represents the spectral signature of a particular target. It is known, however, that the spectral signature of a target can vary significantly due to differences in illumination conditions, shape, and material composition. Furthermore, many targets of interest are inherently mixed, as is the case with camouflaged military vehicles, leading to even greater variability. In this paper, a detailed statistical analysis is performed on HYDICE imagery of Davis Monthan AFB. Several hundred pixels are identified as belonging to the same target class and the distribution of spectral radiance within this group is studied. It is found that simple normal statistics do not adequately model either the total radiance or the single band spectral radiance distributions, both of which can have highly skewed histograms even when the spectral radiance is high. Goodness of fit tests are performed for maximum likelihood normal, lognormal, Γ, and Weibull distributions. It is found that lognormal statistics can model the total radiance and many single-band distributions reasonably well, possibly indicative of multiplicative noise features in remotely sensed spectral imagery.

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ER -

Statistics of target spectra in HSI scenes

Abstract

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Keywords

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