Title :
Improve equalization-cancellation-based sound localization in noisy reverberant environments using direct-to-reverberant energy ratio
Author :
Duc Thanh Chau ; Akagi, Masato ; Junfeng Li
Author_Institution :
Sch. of Inf. Sci., Japan Adv. Inst. of Sci. & Technol., Nomi, Japan
Abstract :
We previously proposed an algorithm for binaural sound source localization based on the equalization-cancellation (EC) binaural hearing model. Though this sound source localization approach exhibits relatively good results in noisy conditions, its performance in the presence of reverberation dramatically degrades. To deal with this problem, in this paper, the EC procedures on which the sound localization approach was designed are firstly analyzed. Subsequently, we propose to further improve the previous sound source localization algorithm in reverberant conditions by adapting the parameters of the EC model to the present conditions based on the direct-to-reverberant energy ratio (DRR). Experimental results demonstrate that the improved sound source localization algorithm outperforms our previously-proposed and other traditional sound source localization algorithms under noisy reverberant environments.
Keywords :
equalisers; reverberation; binaural sound source localization; direct-to-reverberant energy ratio; equalization-cancellation binaural hearing model; equalization-cancellation-based sound localization; noisy reverberant environments; Algorithm design and analysis; Equalizers; Estimation; Noise measurement; Reverberation; Signal processing algorithms; Training; Binaural sound localization; DRR; EC-BEAM; Equalization-Cancellation model; reverberation;
Conference_Titel :
Signal and Information Processing (ChinaSIP), 2013 IEEE China Summit & International Conference on
Conference_Location :
Beijing
DOI :
10.1109/ChinaSIP.2013.6625353
