Title :
Blind separation of instantaneous mixtures of nonstationary sources
Author :
Pham, Dinh-Tuan ; Cardoso, Jean-Francois
Author_Institution :
Lab. of Modeling & Comput., IMAG, Grenoble, France
fDate :
9/1/2001 12:00:00 AM
Abstract :
Most source separation algorithms are based on a model of stationary sources. However, it is a simple matter to take advantage of possible nonstationarities of the sources to achieve separation. This paper develops novel approaches in this direction based on the principles of maximum likelihood and minimum mutual information. These principles are exploited by efficient algorithms in both the off-line case (via a new joint diagonalization procedure) and in the on-line case (via a Newton-like procedure). Some experiments showing the good performance of our algorithms and evidencing an interesting feature of our methods are presented: their ability to achieve a kind of super-efficiency. The paper concludes with a discussion contrasting separating methods for non-Gaussian and nonstationary models and emphasizing that, as a matter of fact, “what makes the algorithms work” is-strictly speaking-not the nonstationarity itself but rather the property that each realization of the source signals has a time-varying envelope
Keywords :
maximum likelihood estimation; signal processing; time-varying systems; Newton-like procedure; blind separation; instantaneous mixtures; joint diagonalization procedure; maximum likelihood; minimum mutual information; nonGaussian models; nonstationary models; nonstationary sources; off-line case; on-line case; performance; source separation algorithms; super-efficiency; time-varying envelope; Blind source separation; Computational modeling; Covariance matrix; Image reconstruction; Independent component analysis; Laboratories; Mutual information; Particle measurements; Source separation; Vectors;
Journal_Title :
Signal Processing, IEEE Transactions on
