Fully constrained linear spectral unmixing: Analytic solution using fuzzy sets

José Luis Silván-Cárdenas; Le Wang

doi:10.1109/TGRS.2010.2072931

Fully constrained linear spectral unmixing: Analytic solution using fuzzy sets

José Luis Silván-Cárdenas
, Le Wang

Geography

Centro de Investigación en Geografía y Geomática, Ing. Jorge L. Tamayo

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

The linear mixture model is a convenient way to describe image pixels as a linear combination of pure spectra termed endmembers. The fractional contribution from each endmember is calculated through inversion of the linear model. Despite the simplicity of the model, a nonnegativity constraint that is imposed on the fractions leads to an unmixing problem for which it is hard to find a closed analytical solution. Current solutions to this problem involve iterative algorithms, which are computationally intensive and not appropriate for unmixing large number of pixels. This paper presents an algorithm to build fuzzy membership functions that are equivalent to the least square solution of the fully constrained linear spectral unmixing problem. The efficiency and effectiveness of the proposed solution is demonstrated using both simulated and real data.

Original language	English
Article number	5598527
Pages (from-to)	3992-4002
Number of pages	11
Journal	IEEE Transactions on Geoscience and Remote Sensing
Volume	48
Issue number	11
DOIs	https://doi.org/10.1109/TGRS.2010.2072931
State	Published - Nov 2010

Keywords

Fuzzy sets (FSs)
linear spectral unmixing (LSU)
subpixel fractional cover

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10.1109/TGRS.2010.2072931

Cite this

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title = "Fully constrained linear spectral unmixing: Analytic solution using fuzzy sets",

abstract = "The linear mixture model is a convenient way to describe image pixels as a linear combination of pure spectra termed endmembers. The fractional contribution from each endmember is calculated through inversion of the linear model. Despite the simplicity of the model, a nonnegativity constraint that is imposed on the fractions leads to an unmixing problem for which it is hard to find a closed analytical solution. Current solutions to this problem involve iterative algorithms, which are computationally intensive and not appropriate for unmixing large number of pixels. This paper presents an algorithm to build fuzzy membership functions that are equivalent to the least square solution of the fully constrained linear spectral unmixing problem. The efficiency and effectiveness of the proposed solution is demonstrated using both simulated and real data.",

keywords = "Fuzzy sets (FSs), linear spectral unmixing (LSU), subpixel fractional cover",

author = "Silv{\'a}n-C{\'a}rdenas, \{Jos{\'e} Luis\} and Le Wang",

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T1 - Fully constrained linear spectral unmixing

T2 - Analytic solution using fuzzy sets

AU - Silván-Cárdenas, José Luis

AU - Wang, Le

PY - 2010/11

Y1 - 2010/11

N2 - The linear mixture model is a convenient way to describe image pixels as a linear combination of pure spectra termed endmembers. The fractional contribution from each endmember is calculated through inversion of the linear model. Despite the simplicity of the model, a nonnegativity constraint that is imposed on the fractions leads to an unmixing problem for which it is hard to find a closed analytical solution. Current solutions to this problem involve iterative algorithms, which are computationally intensive and not appropriate for unmixing large number of pixels. This paper presents an algorithm to build fuzzy membership functions that are equivalent to the least square solution of the fully constrained linear spectral unmixing problem. The efficiency and effectiveness of the proposed solution is demonstrated using both simulated and real data.

AB - The linear mixture model is a convenient way to describe image pixels as a linear combination of pure spectra termed endmembers. The fractional contribution from each endmember is calculated through inversion of the linear model. Despite the simplicity of the model, a nonnegativity constraint that is imposed on the fractions leads to an unmixing problem for which it is hard to find a closed analytical solution. Current solutions to this problem involve iterative algorithms, which are computationally intensive and not appropriate for unmixing large number of pixels. This paper presents an algorithm to build fuzzy membership functions that are equivalent to the least square solution of the fully constrained linear spectral unmixing problem. The efficiency and effectiveness of the proposed solution is demonstrated using both simulated and real data.

KW - Fuzzy sets (FSs)

KW - linear spectral unmixing (LSU)

KW - subpixel fractional cover

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DO - 10.1109/TGRS.2010.2072931

M3 - Article

AN - SCOPUS:78049320782

SN - 0196-2892

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SP - 3992

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JO - IEEE Transactions on Geoscience and Remote Sensing

JF - IEEE Transactions on Geoscience and Remote Sensing

IS - 11

M1 - 5598527

ER -

Fully constrained linear spectral unmixing: Analytic solution using fuzzy sets

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