Title :
Late Reverberant Spectral Variance Estimation Based on a Statistical Model
Author :
Habets, Emanuël A P ; Gannot, Sharon ; Cohen, Israel
Author_Institution :
Dept. of Electr. Eng., Technion - Israel Inst. of Technol., Haifa, Israel
Abstract :
In speech communication systems the received microphone signals are degraded by room reverberation and ambient noise that decrease the fidelity and intelligibility of the desired speaker. Reverberant speech can be separated into two components, viz. early speech and late reverberant speech. Recently, various algorithms have been developed to suppress late reverberant speech. One of the main challenges is to develop an estimator for the so-called late reverberant spectral variance (LRSV) which is required by most of these algorithms. In this letter a statistical reverberation model is proposed that takes the energy contribution of the direct-path into account. This model is then used to derive a more general LRSV estimator, which in a particular case reduces to an existing LRSV estimator. Experimental results show that the developed estimator is advantageous in case the source-microphone distance is smaller than the critical distance.
Keywords :
acoustic signal processing; reverberation; spectral analysis; speech enhancement; speech intelligibility; statistical analysis; acoustic signal processing; ambient noise; late reverberant spectral variance estimation; late reverberant speech suppression; microphone signal; room reverberation; speech communication system; speech enhancement; speech intelligibility; statistical model; Reverberation suppression; speech enhancement; statistical room acoustics;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2009.2024791