Litcius/Paper detail

Modeling three-dimensional underwater acoustic propagation over multi-layered fluid seabeds using the equivalent source method

Tengjiao He, Shiqi Mo, Erzheng Fang, Mingguang Wang, Rui Zhang

2021The Journal of the Acoustical Society of America22 citationsDOI

Abstract

This paper develops an efficient three-dimensional (3D) underwater acoustic propagation model with multi-layered fluid seabeds based on the equivalent source method (ESM). It solves the Helmholtz equation exactly by a superposition of fields generated by equivalent sources. A linear system coupling ESM equations is derived by imposing boundary conditions and solved iteratively using the generalized minimum residual method. Unlike a direct ESM solver, matrix-vector products in each iteration are evaluated by a pre-corrected fast Fourier transformation (PFFT), significantly reducing the numerical cost and enabling efficient solution of 3D large-scale propagation. Moreover, sound speed profiles can be taken into account by dividing the water column into sub-layers, each of which requires an individual PFFT procedure using an FFT subgrid scheme. Simulations of propagation over a Gaussian canyon validate the PFFT-accelerated ESM (PFFT-ESM). The capability of the PFFT-ESM for 3D scattering problems is demonstrated by further presenting the Gaussian canyon simulations with corrugated surface waves.

Topics & Concepts

SolverSuperposition principleHelmholtz equationAcousticsDiscretizationComputer scienceFast Fourier transformBoundary value problemMathematical analysisMathematical optimizationMathematicsPhysicsAlgorithmUnderwater Acoustics ResearchUnderwater Vehicles and Communication SystemsAcoustic Wave Phenomena Research