期刊
IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING
卷 44, 期 9, 页码 2601-2616出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TGRS.2006.874135
关键词
abundance-constrained linear spectral mixture analysis (ACLSMA); abundance quantification; endmember extraction; FastICA; high-order statistics-based independent component IQ prioritization algorithm (HOS-ICPA); IC prioritization; ICA-based endmember extraction algorithm (ICA-EEA); independent component analysis (ICA)-based abundance quantification algorithm (ICA-AQA); initialization driven-based IC; prioritization algorithm (ID-ICPA); virtual dimensionality (VD)
Independent component analysis (ICA) has shown success in many applications. This paper investigates a new application of the ICA in endmember extraction and abundance quantification for hyperspectral imagery. An endmember is generally referred to as an idealized pure signature for a class whose presence is considered to be rare. When it occurs, it may not appear in large population. In this case, the commonly used principal components analysis may not be effective since endmembers usually contribute very little in statistics to data variance. In order to substantiate the author's findings, an ICA-based approach, called ICA-based abundance quantification algorithm (ICA-AQA) is developed. Three novelties result from the author's proposed ICA-AQA. First, unlike the commonly used least squares abundance-constrained linear spectral mixture analysis (ACLSMA) which is a second-order statistics-based method, the ICA-AQA is a high-order statistics-based technique. Second, due to the use of statistical independency, it is generally thought that the ICA cannot be implemented as a constrained method. The ICA-AQA shows otherwise. Third, in order for the ACLSMA to perform the abundance quantification, it requires an algorithm to find, image endmembers; first then followed by an abundance-constrained algorithm for quantification. As opposed to such a two-stage process, the ICA-AQA can accomplish endmember extraction and abundance quantification simultaneously in one-shot operation. Experimental results demonstrate that the ICA-AQA performs at least comparably to abundance-constrained methods.
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