Title :
Convolutive blind source separation based on multiple decorrelation
Author :
Parra, Lucas ; Spence, Clay ; De Vries, Bert
Author_Institution :
Sarnoff Corp., Princeton, NJ, USA
fDate :
31 Aug-2 Sep 1998
Abstract :
Acoustic signals recorded simultaneously in a reverberant environment can be described as sums of differently convolved sources. The task of source separation is to identify the multiple channels and possibly to invert those in order to obtain estimates of the underlying sources. We tackle the problem by explicitly exploiting the nonstationarity of the acoustic sources. Changing cross-correlations at multiple times give a sufficient set of constraints for the unknown channels. A least squares optimization allows us to estimate a forward model, identifying thus the multipath channel. In the same manner we can find an FIR backward model, which generates well separated model sources. Under certain conditions we obtain up to 14 dB signal enhancement in a real room environment
Keywords :
acoustic convolution; correlation theory; least squares approximations; multipath channels; optimisation; 14 dB; FIR backward model; acoustic signals; acoustic source nonstationarity; convolutive blind source separation; differently convolved source sums; forward model estimation; least squares optimization; multipath channel; multiple decorrelation; reverberant environment; Blind source separation; Crosstalk; Decorrelation; Direction of arrival estimation; Finite impulse response filter; Frequency domain analysis; Microphone arrays; Sensor arrays; Signal processing; Source separation;
Conference_Titel :
Neural Networks for Signal Processing VIII, 1998. Proceedings of the 1998 IEEE Signal Processing Society Workshop
Conference_Location :
Cambridge
Print_ISBN :
0-7803-5060-X
DOI :
10.1109/NNSP.1998.710626
