Title :
Relaxed disjointness based clustering for joint blind source separation and dereverberation
Author :
Ito, Noboru ; Araki, Shunsuke ; Yoshioka, Takashi ; Nakatani, Takeshi
Abstract :
We propose a novel clustering technique based on a relaxed disjointness assumption for joint blind source separation (BSS) and dere-verberation. A disjointness assumption in conventional clustering techniques for BSS is that, at each time-frequency point, observed mixtures consist of a single source only. However, this is not the case in reverberant environments, which causes the performance of the conventional techniques to degrade. To deal with reverberant environments, we introduce a relaxed disjointness assumption: at each time-frequency point, dereverberated mixtures consist of a single source only. Under this assumption, the proposed algorithm alternates dereverberation and clustering-based source separation it-eratively, where clustering is performed on dereverberated mixtures. This algorithm is derived based on maximum a posteriori (MAP) fitting of a probabilistic generative model to observed reverberant mixtures. In experiments, the proposed method outperformed a state-of-the-art clustering technique in terms of a signal-to-interference ratio (SIR) by 0.6-4 dB.
Keywords :
blind source separation; maximum likelihood estimation; reverberation; BSS; MAP fitting; SIR; clustering technique; dereverberation; joint blind source separation; maximum a posteriori fitting; probabilistic generative model; relaxed disjointness assumption; signal-to-interference ratio; time-frequency point; Blind source separation; Conferences; Indium tin oxide; Reverberation; Time-frequency analysis; Blind source separation; clustering; dereverberation; linear prediction; maximum a posteriori estimation;
Conference_Titel :
Acoustic Signal Enhancement (IWAENC), 2014 14th International Workshop on
Conference_Location :
Juan-les-Pins
DOI :
10.1109/IWAENC.2014.6954300
