Separation of Synchronous Sources Through Phase Locked Matrix Factorization

Author

Almeida, Miguel S. B. ; Vigario, Ricardo ; Bioucas-Dias, Jose

Author_Institution

Inst. de Telecomun., Lisbon, Portugal

Volume

25

Issue

10

fYear

2014

fDate

Oct. 2014

Firstpage

1894

Lastpage

1908

Abstract

In this paper, we study the separation of synchronous sources (SSS) problem, which deals with the separation of sources whose phases are synchronous. This problem cannot be addressed through independent component analysis methods because synchronous sources are statistically dependent. We present a two-step algorithm, called phase locked matrix factorization (PLMF), to perform SSS. We also show that SSS is identifiable under some assumptions and that any global minimum of PLMFs cost function is a desirable solution for SSS. We extensively study the algorithm on simulated data and conclude that it can perform SSS with various numbers of sources and sensors and with various phase lags between the sources, both in the ideal (i.e., perfectly synchronous and nonnoisy) case, and with various levels of additive noise in the observed signals and of phase jitter in the sources.

Keywords

blind source separation; jitter; matrix decomposition; noise; BSS problem; PLMF cost function; SSS problem; additive noise; blind source separation; independent component analysis method; phase jitter; phase locked matrix factorization; statistically dependent synchronous sources; synchronous source separation; two-step algorithm; Additive noise; Estimation; Source separation; Synchronization; Upper bound; Vectors; Independent component analysis (ICA); matrix factorization; phase-locking; source separation; synchrony; synchrony.;

fLanguage

English

Journal_Title

Neural Networks and Learning Systems, IEEE Transactions on

Publisher

ieee

ISSN

2162-237X

Type

jour

DOI

10.1109/TNNLS.2013.2297791

Filename

6714428