Three-dimensional sound scattering from transversely symmetric surface waves in deep and shallow water using the equivalent source method
Three-dimensional sound scattering from transversely symmetric surface waves in deep and shallow water using the equivalent source method
This paper proposes a propagation model to calculate the three-dimensional (3-D) sound scattering from transversely symmetric sea surface waves in both deep and shallow water using the equivalent source method (ESM). The 3-D sound field is calculated by integrating an assembly of two-dimensional (2-D) transformed fields with different out-of-plane wavenumbers through a cosine transform. Each 2-D solution is calculated using the ESM incorporating a complex image method that can efficiently and accurately solve the 2-D water/seabed Green's function. The oscillatory cosine integral is accurately calculated using a segmented integral scheme requiring relatively few 2-D solutions, which can be further improved through the use of parallel computation. The model is validated by comparison with a 3-D Helmholtz-Kirchhoff method for deep water and a finite element method for a shallow water wedge with both a fluid and an elastic seabed. The model is as accurate as the finite element approach but more numerically efficient, which enables Monte Carlo simulations to be performed for random rough surfaces in order to study the scattering effects at a reasonable computational cost. Also, 3-D pulse propagation in the shallow water wedge is demonstrated to understand the out-of-plane scattering effects further.
73-84
He, Tengjao
08cf54c8-d535-4efb-977e-1da697259b01
Humphrey, Victor
23c9bd0c-7870-428f-b0dd-5ff158d22590
Mo, Shiqi
236a49c3-8605-4e8a-ab9f-79333db7145b
Fang, Erzheng
1d32464a-e28c-4910-9e88-d533e8c99c0b
July 2020
He, Tengjao
08cf54c8-d535-4efb-977e-1da697259b01
Humphrey, Victor
23c9bd0c-7870-428f-b0dd-5ff158d22590
Mo, Shiqi
236a49c3-8605-4e8a-ab9f-79333db7145b
Fang, Erzheng
1d32464a-e28c-4910-9e88-d533e8c99c0b
He, Tengjao, Humphrey, Victor, Mo, Shiqi and Fang, Erzheng
(2020)
Three-dimensional sound scattering from transversely symmetric surface waves in deep and shallow water using the equivalent source method.
Journal of the Acoustical Society of America, 148 (1), .
(doi:10.1121/10.0001522).
Abstract
This paper proposes a propagation model to calculate the three-dimensional (3-D) sound scattering from transversely symmetric sea surface waves in both deep and shallow water using the equivalent source method (ESM). The 3-D sound field is calculated by integrating an assembly of two-dimensional (2-D) transformed fields with different out-of-plane wavenumbers through a cosine transform. Each 2-D solution is calculated using the ESM incorporating a complex image method that can efficiently and accurately solve the 2-D water/seabed Green's function. The oscillatory cosine integral is accurately calculated using a segmented integral scheme requiring relatively few 2-D solutions, which can be further improved through the use of parallel computation. The model is validated by comparison with a 3-D Helmholtz-Kirchhoff method for deep water and a finite element method for a shallow water wedge with both a fluid and an elastic seabed. The model is as accurate as the finite element approach but more numerically efficient, which enables Monte Carlo simulations to be performed for random rough surfaces in order to study the scattering effects at a reasonable computational cost. Also, 3-D pulse propagation in the shallow water wedge is demonstrated to understand the out-of-plane scattering effects further.
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Three-dimensional sound scattering from transversely symmetric surface waves indeep and shallow water using the equivalent source method
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Submitted date: 2020
Accepted/In Press date: 17 June 2020
e-pub ahead of print date: 8 July 2020
Published date: July 2020
Additional Information:
Funding Information:
This work was conducted when the first author was on a study visit to the University of Southampton, funded by the Chinese Scholarship Council. This work was also supported by the National Natural Science Foundation of China under Grant No. 11674074. The authors acknowledge associated support services at the University of Southampton in the completion of this work.
Publisher Copyright:
© 2020 Acoustical Society of America.
Identifiers
Local EPrints ID: 442846
URI: http://eprints.soton.ac.uk/id/eprint/442846
ISSN: 0001-4966
PURE UUID: 8fdef024-6032-4086-9b3e-5cf8d89b266c
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Date deposited: 29 Jul 2020 16:31
Last modified: 17 Mar 2024 02:57
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Author:
Tengjao He
Author:
Shiqi Mo
Author:
Erzheng Fang
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