Sound source localization using multiple ad hoc distributed microphone arrays

Manuel Hahmann; Efren Fernandez-Grande; Henrry Gunawan; Peter Gerstoft

doi:10.1121/10.0011811

Sound source localization using multiple ad hoc distributed microphone arrays

Manuel Hahmann
, Efren Fernandez-Grande
, Henrry Gunawan
, Peter Gerstoft

University of California at San Diego

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Sound source localization is crucial for communication and sound scene analysis. This study uses direction-ofarrival estimates of multiple ad hoc distributed microphone arrays to localize sound sources in a room. An affine mapping between the independent array estimates and the source coordinates is derived from a set of calibration points. Experiments show that the affine model is sufficient to locate a source and can be calibrated to physical dimensions. A projection of the local array estimates increases localization accuracy, particularly further away from the calibrated region. Localization tests in three dimensions compare the affine approach to a nonlinear neural network

Original language	English
Article number	074801
Journal	JASA Express Letters
Volume	2
Issue number	7
Number of pages	8
ISSN	2691-1191
DOIs	https://doi.org/10.1121/10.0011811
Publication status	Published - 2022

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title = "Sound source localization using multiple ad hoc distributed microphone arrays",

abstract = "Sound source localization is crucial for communication and sound scene analysis. This study uses direction-ofarrival estimates of multiple ad hoc distributed microphone arrays to localize sound sources in a room. An affine mapping between the independent array estimates and the source coordinates is derived from a set of calibration points. Experiments show that the affine model is sufficient to locate a source and can be calibrated to physical dimensions. A projection of the local array estimates increases localization accuracy, particularly further away from the calibrated region. Localization tests in three dimensions compare the affine approach to a nonlinear neural network",

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T1 - Sound source localization using multiple ad hoc distributed microphone arrays

AU - Hahmann, Manuel

AU - Fernandez-Grande, Efren

AU - Gunawan, Henrry

AU - Gerstoft, Peter

PY - 2022

Y1 - 2022

N2 - Sound source localization is crucial for communication and sound scene analysis. This study uses direction-ofarrival estimates of multiple ad hoc distributed microphone arrays to localize sound sources in a room. An affine mapping between the independent array estimates and the source coordinates is derived from a set of calibration points. Experiments show that the affine model is sufficient to locate a source and can be calibrated to physical dimensions. A projection of the local array estimates increases localization accuracy, particularly further away from the calibrated region. Localization tests in three dimensions compare the affine approach to a nonlinear neural network

AB - Sound source localization is crucial for communication and sound scene analysis. This study uses direction-ofarrival estimates of multiple ad hoc distributed microphone arrays to localize sound sources in a room. An affine mapping between the independent array estimates and the source coordinates is derived from a set of calibration points. Experiments show that the affine model is sufficient to locate a source and can be calibrated to physical dimensions. A projection of the local array estimates increases localization accuracy, particularly further away from the calibrated region. Localization tests in three dimensions compare the affine approach to a nonlinear neural network

U2 - 10.1121/10.0011811

DO - 10.1121/10.0011811

M3 - Journal article

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VL - 2

JO - JASA Express Letters

JF - JASA Express Letters

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M1 - 074801

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Sound source localization using multiple ad hoc distributed microphone arrays

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