Abundance estimation of spectrally similar minerals using derivative spectra in simulated annealing

P. Debba; E.J.M Carranza; F.D. van der Meer; A. Stein

doi:10.1109/TGRS.2006.881125

Abundance estimation of spectrally similar minerals using derivative spectra in simulated annealing

P. Debba, E.J.M Carranza, F.D. van der Meer, A. Stein

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Abstract

This paper presents a method for estimating the partial abundance of spectrally similar minerals in complex mixtures. The method requires formulation of a linear function of individual spectra of individual minerals. The first and second derivatives of each of the different sets of mixed spectra and the individual spectra are determined. The error is minimized by means of simulated annealing. Experiments were made on several different mixtures of selected endmember, which could plausibly occur in real situations. The variance of the differences between the first derivatives of the observed spectrum and the first derivatives of the endmember spectra gives the most precise estimates for the partial abundance of each endmember. We conclude that the use of first-order derivatives provides a valuable contribution to unmixing procedures provided that the signal-to-noise ratio is at least 50 : 1.

Original language	English
Pages (from-to)	3649-3658
Journal	IEEE transactions on geoscience and remote sensing
Volume	44
Issue number	12
DOIs	https://doi.org/10.1109/TGRS.2006.881125
Publication status	Published - 2006

Keywords

ADLIB-ART-2501
EOS
ESA
2024 OA procedure

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10.1109/TGRS.2006.881125

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title = "Abundance estimation of spectrally similar minerals using derivative spectra in simulated annealing",

abstract = "This paper presents a method for estimating the partial abundance of spectrally similar minerals in complex mixtures. The method requires formulation of a linear function of individual spectra of individual minerals. The first and second derivatives of each of the different sets of mixed spectra and the individual spectra are determined. The error is minimized by means of simulated annealing. Experiments were made on several different mixtures of selected endmember, which could plausibly occur in real situations. The variance of the differences between the first derivatives of the observed spectrum and the first derivatives of the endmember spectra gives the most precise estimates for the partial abundance of each endmember. We conclude that the use of first-order derivatives provides a valuable contribution to unmixing procedures provided that the signal-to-noise ratio is at least 50 : 1.",

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author = "P. Debba and E.J.M Carranza and {van der Meer}, F.D. and A. Stein",

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T1 - Abundance estimation of spectrally similar minerals using derivative spectra in simulated annealing

AU - Debba, P.

AU - Carranza, E.J.M

AU - van der Meer, F.D.

AU - Stein, A.

PY - 2006

Y1 - 2006

N2 - This paper presents a method for estimating the partial abundance of spectrally similar minerals in complex mixtures. The method requires formulation of a linear function of individual spectra of individual minerals. The first and second derivatives of each of the different sets of mixed spectra and the individual spectra are determined. The error is minimized by means of simulated annealing. Experiments were made on several different mixtures of selected endmember, which could plausibly occur in real situations. The variance of the differences between the first derivatives of the observed spectrum and the first derivatives of the endmember spectra gives the most precise estimates for the partial abundance of each endmember. We conclude that the use of first-order derivatives provides a valuable contribution to unmixing procedures provided that the signal-to-noise ratio is at least 50 : 1.

AB - This paper presents a method for estimating the partial abundance of spectrally similar minerals in complex mixtures. The method requires formulation of a linear function of individual spectra of individual minerals. The first and second derivatives of each of the different sets of mixed spectra and the individual spectra are determined. The error is minimized by means of simulated annealing. Experiments were made on several different mixtures of selected endmember, which could plausibly occur in real situations. The variance of the differences between the first derivatives of the observed spectrum and the first derivatives of the endmember spectra gives the most precise estimates for the partial abundance of each endmember. We conclude that the use of first-order derivatives provides a valuable contribution to unmixing procedures provided that the signal-to-noise ratio is at least 50 : 1.

KW - ADLIB-ART-2501

KW - EOS

KW - ESA

KW - 2024 OA procedure

U2 - 10.1109/TGRS.2006.881125

DO - 10.1109/TGRS.2006.881125

M3 - Article

SN - 0196-2892

VL - 44

SP - 3649

EP - 3658

JO - IEEE transactions on geoscience and remote sensing

JF - IEEE transactions on geoscience and remote sensing

IS - 12

ER -

Abundance estimation of spectrally similar minerals using derivative spectra in simulated annealing

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