A Closed-Form DOA Estimator Using Spherical Microphone Arrays in the Presence of Interference

Yilong Lu; Chao Pan; Jingdong Chen; Jacob Benesty

doi:10.1109/LSP.2024.3422789

A Closed-Form DOA Estimator Using Spherical Microphone Arrays in the Presence of Interference

Yilong Lu, Chao Pan, Jingdong Chen, Jacob Benesty

School of Marine Science and Technology

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

1 Scopus citations

Abstract

Direction-of-arrival (DOA) estimation is challenging in complex acoustic environments with background noise and interference. Utilizing spherical microphone arrays, closed-form estimators can be derived, which are attractive for practical applications due to their computational efficiency, eliminating the need for exhaustive extremum searching. However, current closed-form estimators are susceptible to interference. To address this issue, we propose an estimator that directly computes the DOA of the desired source using the covariance matrix of the observation signals. This approach effectively mitigates the impact of interference when the covariance matrix is accurately estimated. Simulation results demonstrate the superior performance of the proposed method compared to the subspace pseudo-intensity vector (SSPIV) and relative harmonic coefficients (RHC) methods.

Original language	English
Pages (from-to)	1770-1774
Number of pages	5
Journal	IEEE Signal Processing Letters
Volume	31
DOIs	https://doi.org/10.1109/LSP.2024.3422789
State	Published - 2024

Keywords

closed-form estimator
direction-of-arrival (DOA) estimation
robustness
Spherical microphone arrays

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10.1109/LSP.2024.3422789

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title = "A Closed-Form DOA Estimator Using Spherical Microphone Arrays in the Presence of Interference",

abstract = "Direction-of-arrival (DOA) estimation is challenging in complex acoustic environments with background noise and interference. Utilizing spherical microphone arrays, closed-form estimators can be derived, which are attractive for practical applications due to their computational efficiency, eliminating the need for exhaustive extremum searching. However, current closed-form estimators are susceptible to interference. To address this issue, we propose an estimator that directly computes the DOA of the desired source using the covariance matrix of the observation signals. This approach effectively mitigates the impact of interference when the covariance matrix is accurately estimated. Simulation results demonstrate the superior performance of the proposed method compared to the subspace pseudo-intensity vector (SSPIV) and relative harmonic coefficients (RHC) methods.",

keywords = "closed-form estimator, direction-of-arrival (DOA) estimation, robustness, Spherical microphone arrays",

author = "Yilong Lu and Chao Pan and Jingdong Chen and Jacob Benesty",

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doi = "10.1109/LSP.2024.3422789",

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T1 - A Closed-Form DOA Estimator Using Spherical Microphone Arrays in the Presence of Interference

AU - Lu, Yilong

AU - Pan, Chao

AU - Chen, Jingdong

AU - Benesty, Jacob

PY - 2024

Y1 - 2024

N2 - Direction-of-arrival (DOA) estimation is challenging in complex acoustic environments with background noise and interference. Utilizing spherical microphone arrays, closed-form estimators can be derived, which are attractive for practical applications due to their computational efficiency, eliminating the need for exhaustive extremum searching. However, current closed-form estimators are susceptible to interference. To address this issue, we propose an estimator that directly computes the DOA of the desired source using the covariance matrix of the observation signals. This approach effectively mitigates the impact of interference when the covariance matrix is accurately estimated. Simulation results demonstrate the superior performance of the proposed method compared to the subspace pseudo-intensity vector (SSPIV) and relative harmonic coefficients (RHC) methods.

AB - Direction-of-arrival (DOA) estimation is challenging in complex acoustic environments with background noise and interference. Utilizing spherical microphone arrays, closed-form estimators can be derived, which are attractive for practical applications due to their computational efficiency, eliminating the need for exhaustive extremum searching. However, current closed-form estimators are susceptible to interference. To address this issue, we propose an estimator that directly computes the DOA of the desired source using the covariance matrix of the observation signals. This approach effectively mitigates the impact of interference when the covariance matrix is accurately estimated. Simulation results demonstrate the superior performance of the proposed method compared to the subspace pseudo-intensity vector (SSPIV) and relative harmonic coefficients (RHC) methods.

KW - closed-form estimator

KW - direction-of-arrival (DOA) estimation

KW - robustness

KW - Spherical microphone arrays

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DO - 10.1109/LSP.2024.3422789

M3 - 文章

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SN - 1070-9908

VL - 31

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EP - 1774

JO - IEEE Signal Processing Letters

JF - IEEE Signal Processing Letters

ER -

A Closed-Form DOA Estimator Using Spherical Microphone Arrays in the Presence of Interference

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