Accelerated speech source localization via a hierarchical search of steered response power
Title | Accelerated speech source localization via a hierarchical search of steered response power |
Publication Type | Journal Articles |
Year of Publication | 2004 |
Authors | Zotkin DN, Duraiswami R |
Journal | IEEE Transactions on Speech and Audio Processing |
Volume | 12 |
Issue | 5 |
Pagination | 499 - 508 |
Date Published | 2004/09// |
ISBN Number | 1063-6676 |
Keywords | accelerated speech source localization, Acceleration, array signal processing, conferencing system, Delay, delay-and-sum beamforming, direction-of-arrival estimation, Frequency, hierarchical search algorithm, Inverse problems, multimedia applications, Multimedia communication, multiple speech sound source, Position measurement, Robustness, search problems, Sensor arrays, Signal processing algorithms, speech, speech enhancement, Speech processing, steered response power, steered response power phase-transform weighted source localization algorithm, transducer arrays, User interfaces |
Abstract | Accurate and fast localization of multiple speech sound sources is a problem that is of significant interest in applications such as conferencing systems. Recently, approaches that are based on search for local peaks of the steered response power are becoming popular, despite their known computational expense. Based on the observation that the wavelengths of the sound from a speech source are comparable to the dimensions of the space being searched and that the source is broadband, we have developed an efficient search algorithm. Significant speedups are achieved by using coarse-to-fine strategies in both space and frequency. We present applications of the search algorithm to speed up simple delay-and-sum beamforming and steered response power phase-transform weighted (SRP-PHAT) source localization algorithms. A systematic series of comparisons with previous algorithms are made that show that the technique is much faster, robust, and accurate. The performance of the algorithm can be further improved by using constraints from computer vision. |
DOI | 10.1109/TSA.2004.832990 |