Title :
Blind separation of wide-band sources in the frequency domain
Author :
Capdevielle, V. ; Serviere, C. ; Lacoume, J.L.
Author_Institution :
CEPHAG, ENSIEG, Saint-Martin d´´Heres, France
Abstract :
Conventional antenna array processing techniques are based on the use of second order statistics but rest on restrictive assumptions. Thus, when a priori information about the propagation or the geometry of the array are hardly available, the model can be generalized to a blind sources separation model. It supposes the statistical independence of the sources and their non-Gaussianity. We focus on the generalization of the sources separation problem to convolutive mixtures of wide-band sources in the frequency domain. As the N-point discrete Fourier transform of signals generally tends to be Gaussian when N tends to infinity according to the central limit theorem, we replace the independence criterion of the sources with the independence of a specific MA filtering of their DFT. The result is then an instantaneous complex mixture in time-domain and the new sources are proved to be non-Gaussian
Keywords :
Gaussian processes; array signal processing; convolution; discrete Fourier transforms; filtering theory; frequency-domain analysis; moving average processes; DFT; MA filtering; antenna array processing; array geometry; blind sources separation model; central limit theorem; convolution; convolutive mixtures; discrete Fourier transform; frequency domain; gaussian signals; nonGaussian sources; second order statistics; signal propagation; statistical independence; wideband sources; Antennas and propagation; Array signal processing; Discrete Fourier transforms; Filtering; Frequency domain analysis; H infinity control; Information geometry; Solid modeling; Statistics; Wideband;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 1995. ICASSP-95., 1995 International Conference on
Conference_Location :
Detroit, MI
Print_ISBN :
0-7803-2431-5
DOI :
10.1109/ICASSP.1995.478484
