1. A novel algorithm to solve for an underwater line source sound field based on coupled modes and a spectral method.
- Author
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Tu, Houwang, Wang, Yongxian, Yang, Chunmei, Wang, Xiaodong, Ma, Shuqing, Xiao, Wenbin, and Liu, Wei
- Subjects
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ACOUSTIC field , *COMPUTATIONAL acoustics , *ACOUSTIC wave propagation , *ALGORITHMS , *ARCHITECTURAL acoustics , *OCEAN bottom - Abstract
• The sound propagation problems of classical/generalized line sources are solved. • The proposed algorithm and program are unconditionally stable. • The proposed algorithm is naturally parallel. • The normal mode solver based on the spectral method can accurately simulate seabeds. A high-precision numerical sound field is the basis of underwater target detection, positioning and communication. A line source in a plane is a common type of sound source in computational ocean acoustics. The exciting waveguide in a range-dependent ocean environment is often structurally complicated; however, traditional algorithms often assume that the waveguide has a simple seabed boundary and that the line source is located at a horizontal range of 0 m, although this ideal situation is rarely encountered in the actual ocean. In this paper, a novel algorithm is designed that can solve for the sound field excited by a line source at any position in a range-dependent ocean environment. The proposed algorithm uses the classic stepwise approximation approach to address the range dependence of the environment and uses the Chebyshev–Tau spectral method to solve for the horizontal wavenumbers and modes of approximately range-independent segments. Once the modal information of these flat segments has been obtained, a global matrix is constructed to solve for the coupling coefficients of all segments, and finally, the complete sound field is synthesized. Numerical experiments using a robust numerical program developed based on this algorithm verify the correctness and usability of our novel algorithm and software. Furthermore, a detailed analysis and test of the computational cost of this algorithm show that it is efficient. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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