Unmixing of Hyperspectral Images using Bayesian Non-negative Matrix Factorization with Volume Prior

Morten Arngren; Mikkel Nørgaard Schmidt; Jan Larsen

doi:10.1007/s11265-010-0533-2

Unmixing of Hyperspectral Images using Bayesian Non-negative Matrix Factorization with Volume Prior

Morten Arngren, Mikkel Nørgaard Schmidt, Jan Larsen

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Hyperspectral imaging can be used in assessing the quality of foods by decomposing the image into constituents such as protein, starch, and water. Observed data can be considered a mixture of underlying characteristic spectra (endmembers), and estimating the constituents and their abundances requires efficient algorithms for spectral unmixing. We present a Bayesian spectral unmixing algorithm employing a volume constraint and propose an inference procedure based on Gibbs sampling. We evaluate the method on synthetic and real hyperspectral data of wheat kernels. Results show that our method perform as good or better than existing volume constrained methods. Further, our method gives credible intervals for the endmembers and abundances, which allows us to asses the confidence of the results.

Original language	English
Journal	Journal of Signal Processing Systems
Volume	65
Issue number	3
Pages (from-to)	479-496
ISSN	1939-8018
DOIs	https://doi.org/10.1007/s11265-010-0533-2
Publication status	Published - 2011

Keywords

Hyperspectral image analysis
Volume regularization
Bayesian source separation
Gibbs sampling

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title = "Unmixing of Hyperspectral Images using Bayesian Non-negative Matrix Factorization with Volume Prior",

abstract = "Hyperspectral imaging can be used in assessing the quality of foods by decomposing the image into constituents such as protein, starch, and water. Observed data can be considered a mixture of underlying characteristic spectra (endmembers), and estimating the constituents and their abundances requires efficient algorithms for spectral unmixing. We present a Bayesian spectral unmixing algorithm employing a volume constraint and propose an inference procedure based on Gibbs sampling. We evaluate the method on synthetic and real hyperspectral data of wheat kernels. Results show that our method perform as good or better than existing volume constrained methods. Further, our method gives credible intervals for the endmembers and abundances, which allows us to asses the confidence of the results.",

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AU - Arngren, Morten

AU - Schmidt, Mikkel Nørgaard

AU - Larsen, Jan

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N2 - Hyperspectral imaging can be used in assessing the quality of foods by decomposing the image into constituents such as protein, starch, and water. Observed data can be considered a mixture of underlying characteristic spectra (endmembers), and estimating the constituents and their abundances requires efficient algorithms for spectral unmixing. We present a Bayesian spectral unmixing algorithm employing a volume constraint and propose an inference procedure based on Gibbs sampling. We evaluate the method on synthetic and real hyperspectral data of wheat kernels. Results show that our method perform as good or better than existing volume constrained methods. Further, our method gives credible intervals for the endmembers and abundances, which allows us to asses the confidence of the results.

AB - Hyperspectral imaging can be used in assessing the quality of foods by decomposing the image into constituents such as protein, starch, and water. Observed data can be considered a mixture of underlying characteristic spectra (endmembers), and estimating the constituents and their abundances requires efficient algorithms for spectral unmixing. We present a Bayesian spectral unmixing algorithm employing a volume constraint and propose an inference procedure based on Gibbs sampling. We evaluate the method on synthetic and real hyperspectral data of wheat kernels. Results show that our method perform as good or better than existing volume constrained methods. Further, our method gives credible intervals for the endmembers and abundances, which allows us to asses the confidence of the results.

KW - Hyperspectral image analysis

KW - Volume regularization

KW - Bayesian source separation

KW - Gibbs sampling

U2 - 10.1007/s11265-010-0533-2

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EP - 496

JO - Journal of Signal Processing Systems

JF - Journal of Signal Processing Systems

IS - 3

ER -

Unmixing of Hyperspectral Images using Bayesian Non-negative Matrix Factorization with Volume Prior

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Keywords

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