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Nonlinear Mixture-wise Expansion Approach to Underdetermined Blind Separation of Nonnegative Dependent Sources (CROSBI ID 194878)

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Kopriva, Ivica ; Jerić, Ivanka ; Brkljačić, Lidija Nonlinear Mixture-wise Expansion Approach to Underdetermined Blind Separation of Nonnegative Dependent Sources // Journal of chemometrics, 27 (2013), 7/8; 189-197. doi: 10.1002/cem.2512

Podaci o odgovornosti

Kopriva, Ivica ; Jerić, Ivanka ; Brkljačić, Lidija

engleski

Nonlinear Mixture-wise Expansion Approach to Underdetermined Blind Separation of Nonnegative Dependent Sources

Underdetermined blind separation of nonnegative dependent sources consists in decomposing set of observed mixed signals into greater number of original nonnegative and dependent component (source) signals. That is an important problem for which very few algorithms exist. It is also practically relevant for contemporary metabolic profiling of biological samples, such as biomarker identification studies, where sources (a.k.a. pure components or analytes) are aimed to be extracted from mass spectra of complex multicomponent mixtures. This paper presents method for underdetermined blind separation of nonnegative dependent sources. The method performs nonlinear mixture-wise mapping of observed data in high-dimensional reproducible kernel Hilbert space (RKHS) of functions and sparseness constrained nonnegative matrix factorization (NMF) therein. Thus, original problem is converted into new one with increased number of mixtures, increased number of dependent sources and higher-order (error) terms generated by nonlinear mapping. Provided that amplitudes of original components are sparsely distributed, that is the case for mass spectra of analytes, sparseness constrained NMF in RKHS yields, with significant probability, improved accuracy relative to the case when the same NMF algorithm is performed on original problem. The method is exemplified on numerical and experimental examples related respectively to extraction of ten dependent components from five mixtures and to extraction of ten dependent analytes from mass spectra of two to five mixtures. Thereby, analytes mimic complexity of components expected to be found in biological samples.

underdetermined blind source separation ; dependent sources ; reproducible kernel Hilbert spaces ; empirical kernel maps ; nonnegative matrix factorization

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Podaci o izdanju

27 (7/8)

2013.

189-197

objavljeno

0886-9383

1099-128X

10.1002/cem.2512

Povezanost rada

Kemija, Matematika, Računarstvo

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