Practical application of a tri-axial intensity array
Practical application of a tri-axial intensity array
Sound intensity is a vector quantity representing the magnitude and direction of propagating energy within an acoustic field. In an underwater environment, a single omni-directional hydrophone can be used to measure instantaneous acoustic pressure and a finite difference approximation applied to the pressure signals from a pair of such hydrophones can be used to calculate particle velocity in a single direction. Because the time average of the product of instantaneous pressure and particle velocity is intensity, a pair of hydrophones is all that is required to measure a single component of the intensity vector. The complete three-dimensional intensity vector can be calculated using three orthogonal pairs of hydrophones. To evaluate this concept a tri-axial array consisting of three orthogonal pairs of omni-directional hydrophones has been developed and tested on both calibrated sources at a laboratory facility and sources of opportunity during sea trails in littoral waters. The use of this array to calculate the intensity vector and thereby localize both near-field and far-field acoustic sources and characterize the directionality of ambient noise fields will be discussed. The impact of signal-to-noise ratio and the effect of self-noise will also be examined.
2427
Young, V.W.
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Hines, P.C.
b1cba42b-6cee-4799-87dc-b90ec94a60b3
Hutt, D.L.
cd9dc91b-983e-46e6-8f51-5369d2c1c893
Humphrey, V.H.
23c9bd0c-7870-428f-b0dd-5ff158d22590
2003
Young, V.W.
796e938a-f07c-4bf5-a44d-2fcc850a0de9
Hines, P.C.
b1cba42b-6cee-4799-87dc-b90ec94a60b3
Hutt, D.L.
cd9dc91b-983e-46e6-8f51-5369d2c1c893
Humphrey, V.H.
23c9bd0c-7870-428f-b0dd-5ff158d22590
Young, V.W., Hines, P.C., Hutt, D.L. and Humphrey, V.H.
(2003)
Practical application of a tri-axial intensity array.
Journal of the Acoustical Society of America, 114 (4), .
Abstract
Sound intensity is a vector quantity representing the magnitude and direction of propagating energy within an acoustic field. In an underwater environment, a single omni-directional hydrophone can be used to measure instantaneous acoustic pressure and a finite difference approximation applied to the pressure signals from a pair of such hydrophones can be used to calculate particle velocity in a single direction. Because the time average of the product of instantaneous pressure and particle velocity is intensity, a pair of hydrophones is all that is required to measure a single component of the intensity vector. The complete three-dimensional intensity vector can be calculated using three orthogonal pairs of hydrophones. To evaluate this concept a tri-axial array consisting of three orthogonal pairs of omni-directional hydrophones has been developed and tested on both calibrated sources at a laboratory facility and sources of opportunity during sea trails in littoral waters. The use of this array to calculate the intensity vector and thereby localize both near-field and far-field acoustic sources and characterize the directionality of ambient noise fields will be discussed. The impact of signal-to-noise ratio and the effect of self-noise will also be examined.
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Published date: 2003
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Local EPrints ID: 10339
URI: http://eprints.soton.ac.uk/id/eprint/10339
ISSN: 0001-4966
PURE UUID: efac871d-6a4b-45d2-9b41-8af8880ef6d4
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Date deposited: 23 Aug 2005
Last modified: 12 Dec 2021 03:24
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Author:
V.W. Young
Author:
P.C. Hines
Author:
D.L. Hutt
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