A novel deconvolution beamforming algorithm for virtual phased arrays
A novel deconvolution beamforming algorithm for virtual phased arrays
Beamforming techniques using phased microphone arrays are one of the most common tools for localizing and quantifying noise sources. However, the use of such devices can result in a series of well-known disadvantages regarding, for instance, their very high cost or transducer mismatch. Virtual Phased Arrays (VPAs) have been proposed as an alternative solution to prevent these difficulties provided the sound field is time stationary. Several frequency domain beamforming techniques can be adapted to only use the relative phase between a fixed and a moving transducer. Therefore the results traditionally obtained using large arrays can be emulated by applying beamforming algorithms to data acquired from only two sensors. This paper presents a novel beamforming algorithm which uses a deconvolution approach to strongly reduce the presence of side lobes. A series of synthetic noise sources with negative source strength are introduced in order to maximize the dynamic range of the beamforming deconvolved map. This iterative sidelobe cleaner algorithm (ISCA) does not require the of use of the covariance matrix of the array, hence it can also be applied to a VPA. The performance of ISCA is compared throughout several simulations with conventional deconvolution algorithms such as DAMAS and NNLS. The results support the robustness and accuracy of the proposed approach, providing clear localization maps in all the conditions evaluated.
Fernandez Comesana, Daniel
156c0f0a-b641-4b56-8790-ff3d4dcb96fd
Fernandez Grande, Efren
3877b0e9-575c-4de8-b15e-f2c7aa3dfa88
Tiana Roig, Elisabet
9c48a1bf-f319-4221-a2dc-f3f82874e989
Holland, Keith R.
90dd842b-e3c8-45bb-865e-3e7da77ec703
17 September 2013
Fernandez Comesana, Daniel
156c0f0a-b641-4b56-8790-ff3d4dcb96fd
Fernandez Grande, Efren
3877b0e9-575c-4de8-b15e-f2c7aa3dfa88
Tiana Roig, Elisabet
9c48a1bf-f319-4221-a2dc-f3f82874e989
Holland, Keith R.
90dd842b-e3c8-45bb-865e-3e7da77ec703
Fernandez Comesana, Daniel, Fernandez Grande, Efren, Tiana Roig, Elisabet and Holland, Keith R.
(2013)
A novel deconvolution beamforming algorithm for virtual phased arrays.
Internoise 2013, Innsbruck, Austria.
15 - 18 Sep 2013.
Record type:
Conference or Workshop Item
(Other)
Abstract
Beamforming techniques using phased microphone arrays are one of the most common tools for localizing and quantifying noise sources. However, the use of such devices can result in a series of well-known disadvantages regarding, for instance, their very high cost or transducer mismatch. Virtual Phased Arrays (VPAs) have been proposed as an alternative solution to prevent these difficulties provided the sound field is time stationary. Several frequency domain beamforming techniques can be adapted to only use the relative phase between a fixed and a moving transducer. Therefore the results traditionally obtained using large arrays can be emulated by applying beamforming algorithms to data acquired from only two sensors. This paper presents a novel beamforming algorithm which uses a deconvolution approach to strongly reduce the presence of side lobes. A series of synthetic noise sources with negative source strength are introduced in order to maximize the dynamic range of the beamforming deconvolved map. This iterative sidelobe cleaner algorithm (ISCA) does not require the of use of the covariance matrix of the array, hence it can also be applied to a VPA. The performance of ISCA is compared throughout several simulations with conventional deconvolution algorithms such as DAMAS and NNLS. The results support the robustness and accuracy of the proposed approach, providing clear localization maps in all the conditions evaluated.
Text
InterNoise2013_A novel deconvolution beamforming algorithm for VPA.pdf
- Author's Original
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Published date: 17 September 2013
Venue - Dates:
Internoise 2013, Innsbruck, Austria, 2013-09-15 - 2013-09-18
Organisations:
Acoustics Group
Identifiers
Local EPrints ID: 357182
URI: http://eprints.soton.ac.uk/id/eprint/357182
PURE UUID: d7bdf05b-71bd-416d-b777-e4fe5aca356a
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Date deposited: 15 Oct 2013 13:47
Last modified: 14 Mar 2024 14:56
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Contributors
Author:
Daniel Fernandez Comesana
Author:
Efren Fernandez Grande
Author:
Elisabet Tiana Roig
Author:
Keith R. Holland
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