Robust Time Delay Estimation Exploiting Redundancy Among Multiple Microphones

Jingdong Chen; Jacob Benesty; Yiteng Huang

doi:10.1109/TSA.2003.818025

Robust Time Delay Estimation Exploiting Redundancy Among Multiple Microphones

Jingdong Chen, Jacob Benesty, Yiteng Huang

Research output: Contribution to journal › Article › peer-review

145 Scopus citations

Abstract

To find the position of an acoustic source in a room, typically, a set of relative delays among different microphone pairs needs to be determined. The generalized cross-correlation (GCC) method is the most popular to do so and is well explained in a landmark paper by Knapp and Carter. In this paper, the idea of cross-correlation coefficient between two random signals is generalized to the multichannel case by using the notion of spatial prediction. The multichannel spatial correlation matrix is then deduced and its properties are discussed. We then propose a new method based on the multichannel spatial correlation matrix for time delay estimation. It is shown that this new approach can take advantage of the redundancy when more than two microphones are available and this redundancy can help the estimator to better cope with noise and reverberation.

Original language	English
Pages (from-to)	549-557
Number of pages	9
Journal	IEEE Transactions on Speech and Audio Processing
Volume	11
Issue number	6
DOIs	https://doi.org/10.1109/TSA.2003.818025
State	Published - Nov 2003
Externally published	Yes

Keywords

Cross-correlation coefficient
Linear prediction
Spatial correlation
Time delay estimation

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10.1109/TSA.2003.818025

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title = "Robust Time Delay Estimation Exploiting Redundancy Among Multiple Microphones",

abstract = "To find the position of an acoustic source in a room, typically, a set of relative delays among different microphone pairs needs to be determined. The generalized cross-correlation (GCC) method is the most popular to do so and is well explained in a landmark paper by Knapp and Carter. In this paper, the idea of cross-correlation coefficient between two random signals is generalized to the multichannel case by using the notion of spatial prediction. The multichannel spatial correlation matrix is then deduced and its properties are discussed. We then propose a new method based on the multichannel spatial correlation matrix for time delay estimation. It is shown that this new approach can take advantage of the redundancy when more than two microphones are available and this redundancy can help the estimator to better cope with noise and reverberation.",

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T1 - Robust Time Delay Estimation Exploiting Redundancy Among Multiple Microphones

AU - Chen, Jingdong

AU - Benesty, Jacob

AU - Huang, Yiteng

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N2 - To find the position of an acoustic source in a room, typically, a set of relative delays among different microphone pairs needs to be determined. The generalized cross-correlation (GCC) method is the most popular to do so and is well explained in a landmark paper by Knapp and Carter. In this paper, the idea of cross-correlation coefficient between two random signals is generalized to the multichannel case by using the notion of spatial prediction. The multichannel spatial correlation matrix is then deduced and its properties are discussed. We then propose a new method based on the multichannel spatial correlation matrix for time delay estimation. It is shown that this new approach can take advantage of the redundancy when more than two microphones are available and this redundancy can help the estimator to better cope with noise and reverberation.

AB - To find the position of an acoustic source in a room, typically, a set of relative delays among different microphone pairs needs to be determined. The generalized cross-correlation (GCC) method is the most popular to do so and is well explained in a landmark paper by Knapp and Carter. In this paper, the idea of cross-correlation coefficient between two random signals is generalized to the multichannel case by using the notion of spatial prediction. The multichannel spatial correlation matrix is then deduced and its properties are discussed. We then propose a new method based on the multichannel spatial correlation matrix for time delay estimation. It is shown that this new approach can take advantage of the redundancy when more than two microphones are available and this redundancy can help the estimator to better cope with noise and reverberation.

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KW - Linear prediction

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Robust Time Delay Estimation Exploiting Redundancy Among Multiple Microphones

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Keywords

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