Title :
Nonstationary source separation
Author :
Choi, Seungjin ; Lee, O. Young
Author_Institution :
Sch. of Electr. & Electron. Eng., Chung-Buk Nat. Univ., Cheongju, South Korea
Abstract :
Source separation is a statistical method, the goal of which is to recover mutually independent sources from their linear instantaneous mixtures without resorting to any prior knowledge. Most existing methods have been focused on stationary sources, so higher-order statistics was necessary for separation, unless sources are temporally correlated. For nonstationary sources, however, it was shown by Matsuoka, Ohya and Kawamoto (1995) that source separation could be achieved by only decorrelation (second-order statistics). In present paper, we adopt the natural gradient method of Amari (see Neural Computation, vol.10, p.251-76, 1998) and derive an efficient source separation algorithm by minimizing the cost function proposed by Matsuoka et al. The useful behavior of the proposed algorithm is demonstrated through computer simulations
Keywords :
decorrelation; gradient methods; learning (artificial intelligence); recurrent neural nets; speech processing; statistical analysis; computer simulations; cost function minimization; decorrelation; digitised voice signals; efficient source separation algorithm; learning algorithm; linear instantaneous mixtures; mutually independent sources recovery; natural gradient method; nonstationary source separation; recurrent network; second-order statistics; sensor signal; statistical method; Approximation algorithms; Computer simulation; Covariance matrix; Decorrelation; Ear; Gradient methods; Higher order statistics; Independent component analysis; Source separation; Vectors;
Conference_Titel :
TENCON 99. Proceedings of the IEEE Region 10 Conference
Conference_Location :
Cheju Island
Print_ISBN :
0-7803-5739-6
DOI :
10.1109/TENCON.1999.818503
