2.5D BEM modeling of underwater sound scattering in the presence of a slippage interface separating two flat layered regions
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Publication:661848
DOI10.1016/j.wavemoti.2010.06.004zbMath1231.76281OpenAlexW2029794054WikidataQ57979751 ScholiaQ57979751MaRDI QIDQ661848
Publication date: 11 February 2012
Published in: Wave Motion (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.wavemoti.2010.06.004
Boundary element methods applied to problems in fluid mechanics (76M15) Hydro- and aero-acoustics (76Q05) Boundary element methods for boundary value problems involving PDEs (65N38)
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Uses Software
Cites Work
- Closed-form integration of singular terms for constant, linear and quadratic boundary elements. I: SH wave propagation
- A hybrid boundary element method for shallow water acoustic propagation over an irregular bottom
- Closed-form integration of singular terms for constant, linear and quadratic boundary elements. II: SV-P wave propagation
- Modified Green's functions for shallow water acoustic wave propagation
- 2.5 D scattering of waves by rigid inclusions buried under a fluid channel via BEM
- A coupled mode solution for acoustic propagation in a waveguide with stepwise depth variations of a penetrable bottom
- Parabolic approximations for underwater sound propagation
- COUPLED MODE AND FINITE ELEMENT APPROXIMATIONS OF UNDERWATER SOUND PROPAGATION PROBLEMS IN GENERAL STRATIFIED ENVIRONMENTS
- A 2.5D TRACTION BOUNDARY ELEMENT METHOD FORMULATION APPLIED TO THE STUDY OF WAVE PROPAGATION IN A FLUID LAYER HOSTING A THIN RIGID BODY
- DYNAMIC RESPONSE OF A THREE-DIMENSIONAL FLUID CHANNEL BOUNDED BY AN ELASTIC FLOOR IN THE PRESENCE OF A SUBMERGED INCLUSION VIA BEM
- 3D acoustic scattering from an irregular fluid waveguide via the BEM
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