Title :
Room speech dereverberation via minimum-phase and all-pass component processing of multi-microphone signals
Author :
Liu, Qing-Guang ; Champagne, Benoît ; Kabal, Peter
Author_Institution :
INRS Telecommun., Verdun, Que., Canada
Abstract :
In this paper, a new microphone array processing technique is proposed for blind dereverberation of speech signals effected by room acoustics. It is based on the separate processing of the minimum-phase and all-pass components of multi-microphone signals. The underlying motivation for the new processor is to use spatio-temporal processing over a single set of synchronous speech segments from several microphones to reconstruct the source speech, such that, it is applicable to practical time-variant acoustic environments. Simulated room impulse responses are used to evaluate the new processor and to compare it to a conventional beam-former. A significant improvement in array gain and a reduction of reverberation in listening tests are observed
Keywords :
architectural acoustics; array signal processing; microphones; reverberation; speech processing; synchronisation; transient response; all-pass component processing; array gain; blind dereverberation; conventional beam-former; listening tests; microphone array processing technique; minimum-phase; multi-microphone signals; room acoustics; room speech dereverberation; simulated room impulse responses; source speech reconstruction; spatio-temporal processing; synchronous speech segments; time-variant acoustic environments; Array signal processing; Cepstrum; Degradation; Delay; Filtering; Microphone arrays; Reverberation; Signal processing; Speech enhancement; Speech processing;
Conference_Titel :
Communications, Computers, and Signal Processing, 1995. Proceedings., IEEE Pacific Rim Conference on
Conference_Location :
Victoria, BC
Print_ISBN :
0-7803-2553-2
DOI :
10.1109/PACRIM.1995.519596
