Title :
Why does PHAT work well in lownoise, reverberative environments?
Author :
Zhang, Cha ; Florêncio, Dinei ; Zhang, Zhengyou
Author_Institution :
One Microsoft Way, Microsoft Res., Redmond, WA
fDate :
March 31 2008-April 4 2008
Abstract :
Among many existing time difference of arrival (TDOA) based sound source localization (SSL) algorithms, the phase transform (PHAT) is extremely popular for its excellent performance in low noise environments, even under relatively heavy reverberation. However, PHAT was developed as a heuristic approach and its working principle has not been completely understood. In this paper, we present the relationship between PHAT and a maximum likelihood (ML) framework for multi-microphone sound source localization. We show that when the environment noise approaches zero, PHAT is indeed a special case of the ML algorithm, which explains its good performance under low noise environments. In addition, we show that as long as the noise stays low, PHAT remains optimal in ML sense even when the room reverberation is heavy, which explains its robustness over reverberation.
Keywords :
acoustic signal processing; architectural acoustics; maximum likelihood estimation; microphone arrays; reverberation; time-of-arrival estimation; TDOA; low noise reverberative environment; maximum likelihood framework; multi-microphone sound source localization; phase transform; room reverberation; time difference of arrival; Acoustic noise; Delay effects; Delay estimation; Maximum likelihood estimation; Microphone arrays; Noise robustness; Phase noise; Reverberation; Time difference of arrival; Working environment noise; Sound source localization; maximum likelihood; noise; phase transform; reverberation;
Conference_Titel :
Acoustics, Speech and Signal Processing, 2008. ICASSP 2008. IEEE International Conference on
Conference_Location :
Las Vegas, NV
Print_ISBN :
978-1-4244-1483-3
Electronic_ISBN :
1520-6149
DOI :
10.1109/ICASSP.2008.4518172
