The effect of nearby bubbles on array gain
The effect of nearby bubbles on array gain
The coherent processing of signals from multiple hydrophones in an array offers improvements in angular resolution and signal-to-noise ratio. When the array is steered in a particular direction, the signals arriving from that direction are added in phase, and any signals arriving from other directions are not. Array gain (AG) is a measure of how much the signal arriving from the steering direction is amplified relative to signals arriving from all other directions. The subject of this paper is the manner in which the AG of an acoustic array operating in water that contains air bubbles is affected by scattering from nearby bubbles. The effects of bubbles on acoustic attenuation and dispersion are considered separately from their effects on AG. Acoustic measurements made in bubbly water using the AB Wood tank at the Institute of Sound and Vibration Research, University of Southampton, in June 2008 show that as bubble density increases, relative phase shifts in individual hydrophone signals increase and signal correlation among the hydrophones is reduced. A theory and numerical simulation linking bubble density at the hydrophone to the AG is in good agreement with the measurements up to the point where multiple scattering becomes important
3812-3826
Culver, R. Lee
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Park, J. Daniel
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Leighton, Timothy G.
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Coles, David G.H.
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December 2011
Culver, R. Lee
cc203f09-36c7-457f-b909-c5ecb96bcdb8
Park, J. Daniel
c28fe44a-2819-44a8-a382-ba082c4c5c75
Leighton, Timothy G.
3e5262ce-1d7d-42eb-b013-fcc5c286bbae
Coles, David G.H.
de60477c-eb71-49e0-8038-5d2d030aa053
Culver, R. Lee, Park, J. Daniel, Leighton, Timothy G. and Coles, David G.H.
(2011)
The effect of nearby bubbles on array gain.
Journal of the Acoustical Society of America, 130 (6), .
(doi:10.1121/1.3658473).
Abstract
The coherent processing of signals from multiple hydrophones in an array offers improvements in angular resolution and signal-to-noise ratio. When the array is steered in a particular direction, the signals arriving from that direction are added in phase, and any signals arriving from other directions are not. Array gain (AG) is a measure of how much the signal arriving from the steering direction is amplified relative to signals arriving from all other directions. The subject of this paper is the manner in which the AG of an acoustic array operating in water that contains air bubbles is affected by scattering from nearby bubbles. The effects of bubbles on acoustic attenuation and dispersion are considered separately from their effects on AG. Acoustic measurements made in bubbly water using the AB Wood tank at the Institute of Sound and Vibration Research, University of Southampton, in June 2008 show that as bubble density increases, relative phase shifts in individual hydrophone signals increase and signal correlation among the hydrophones is reduced. A theory and numerical simulation linking bubble density at the hydrophone to the AG is in good agreement with the measurements up to the point where multiple scattering becomes important
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Published date: December 2011
Organisations:
Acoustics Group
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Local EPrints ID: 207295
URI: http://eprints.soton.ac.uk/id/eprint/207295
ISSN: 0001-4966
PURE UUID: ecf3af47-ab3f-4fc1-8aab-8966dc0dd602
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Date deposited: 12 Jan 2012 12:10
Last modified: 15 Mar 2024 02:45
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Author:
R. Lee Culver
Author:
J. Daniel Park
Author:
David G.H. Coles
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