Publications

Broadband enhancement and suppression of backscattering from objects in shallow-sea waveguides through the prescription of incident wavefronts

Published in npj Acoust., 2025

A methodology for enhancing and suppressing backscattering from submerged objects in shallow-water waveguides through manipulation of the incident waves.

Recommended citation: T. He and W. Guo, Broadband enhancement and suppression of backscattering from objects in shallow-sea waveguides through the prescription of incident wavefronts, npj Acoust. , 1, 27 (2025) (https://doi.org/10.1038/s44384-025-00033-6)
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Semi-analytical solution for three-dimensional underwater acoustic propagation from a directional source

Published in J. Sound Vib., 2025

A practical tool for assessing the adverse impact of shipping noise on marine fauna, achieving 3D directional underwater acoustic propagation using a single propagation model run.

Recommended citation: T. He, S. Mo, and X. Qing, Semi-analytical solution for three-dimensional underwater acoustic propagation from a directional source, J. Sound Vib., 618 Part A: 119253 (2025) (https://doi.org/10.1016/j.jsv.2025.119253)
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Fast prediction of the long-range structural acoustic radiation in the stratified ocean

Published in Ocean Eng., 2024

Fast 3D radiation prediction from structural sources in shallow water within seconds.

Recommended citation: R. Nie, T. He, J. Fan, K, Zhao and B. Wang, Fast prediction of the long-range structural acoustic radiation in the stratified ocean, Ocean Eng., 314 Part 1: 119673 (2024) (https://doi.org/10.1016/j.oceaneng.2024.119673)
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A novel model order reduction technique for solving horizontal refraction equations in the modeling of three-dimensional underwater acoustic propagation

Published in J. Sound Vib., 2024

An order-reduced 3D adiabatic mode model is developped, providing naturally a wide-angle solution. Only a few seconds are required for longitudinally invariant environments, and the proposed model enables efficient and accurate solutions on a coarse grid.

Recommended citation: T. He, J. Liu, S. Ye, X. Qing, and S. Mo, A novel model order reduction technique for solving horizontal refraction equations in the modeling of three-dimensional underwater acoustic propagation, J. Sound Vib., 591: 118617 (2024) (https://10.1016/j.jsv.2024.118617)
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Semi-analytical solution for sound propagation from a moving directional source in a shallow-water waveguide

Published in J. Sound Vib., 2024

A new mechanism of the Doppler beam shift is investigated by developping the semi-analytical solution for sound propagation from a moving directional source in a shallow-water waveguide

Recommended citation: T. He, X. Liu, R. Nie, W. Guo, et al., Semi-analytical solution for sound propagation from a moving directional source in a shallow-water waveguide, J. Sound Vib., 576(35):118259 (2024) (https://10.1016/j.jsv.2024.118259)
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PAPR Reduction for FBMC-OQAM System with Laplace based Linear Companding Transform

Published in IEEE. Commun. Lett., 2024

Recommended citation: X. Liu, X. Ge, H. Zhou, T. He*, et al, PAPR Reduction for FBMC-OQAM System with Laplace based Linear Companding Transform, IEEE. Commun. Lett., 28: 1 (2024) (https://10.1109/LCOMM.2023.3335911)

The Mitigation of Mutual Coupling Effects in Multi-Beam Echosounder Calibration under Near-Field Conditions

Published in J. Mar. Sci. Eng., 2024

Recommended citation: W. Zhang, W. Yuan, G. Sun, T. He, et al, The Mitigation of Mutual Coupling Effects in Multi-Beam Echosounder Calibration under Near-Field Conditions, J. Mar. Sci. Eng., 12(1), 125 (2024) (https://doi.org/10.3390/jmse12010125)

A meshless wave-based method for modeling sound propagation in three-dimensional axisymmetric lined ducts

Published in Eng. Comput., 2023

Accomendating non-uniform flows to the simulations based on boundary-integral approaches

Recommended citation: T. He, S. Mo, E. Fang, X. Liu, et al., A meshless wave-based method for modeling sound propagation in three-dimensional axisymmetric lined ducts, Eng. Comput., 40, 2083–2099 (2024) (https://doi.org/10.1007/s00366-023-01905-9)
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Numerical simulation of wave propagation in ice-covered ocean environments based on the equivalent-source method

Published in Phys. Fluids., 2023

Recommended citation: T. He, B. Wang, S. Tang, F. Zhou, et al, Numerical simulation of wave propagation in ice-covered ocean environments based on the equivalent-source method, Phys. Fluids., 35(4):47126 (2023) (https://doi.org/10.1063/5.0144919)
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Predicting range-dependent underwater sound propagation from structural sources in shallow water using coupled finite element/equivalent source computations

Published in Ocean. Eng., 2023

First attempt to couple structrual acoustic radiation with 3D underwater sound propagation

Recommended citation: T. He, B. Wang, S. Mo and E. Fang, Predicting range-dependent underwater sound propagation from structural sources in shallow water using coupled finite element/equivalent source computations, Ocean. Eng., 272:113904 (2023) (https://doi.org/10.1016/j.oceaneng.2023.113904)
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Modeling three-dimensional underwater acoustic propagation over multi-layered fluid seabeds using the equivalent source method

Published in J. Acoust. Soc. Am., 2021

A full-wave 3D model for large-scale underwater acoustic propagation, PFFT-ESM

Recommended citation: T. He, S. Mo, E. Fang, M. Wang, et al, Modeling three-dimensional underwater acoustic propagation over multi-layered fluid seabeds using the equivalent source method, J. Acoust. Soc. Am., 150, 2854. (2021) (https://doi.org/10.1121/10.0006663)
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Modeling propagation in shallow water with the range-dependent sea surfaces and fluid seabeds using the equivalent source method

Published in J. Acoust. Soc. Am., 2021

Recommended citation: T. He, S. Mo, W. Guo and E. Fang, Modeling propagation in shallow water with the range-dependent sea surfaces and fluid seabeds using the equivalent source method, J. Acoust. Soc. Am., 149, 997 (2021) (https://doi.org/10.1121/10.0001522)
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Three-dimensional sound scattering from transversely symmetric surface waves in deep and shallow water using the equivalent source method

Published in J. Acoust. Soc. Am., 2020

Highlight of the computational acoustics section.

Recommended citation: T. He, V. Humphrey, S. Mo* and E. Fang, Three-dimensional sound scattering from transversely symmetric surface waves in deep and shallow water using the equivalent source method, J. Acoust. Soc. Am., 148, 73 (2020) (https://doi.org/10.1121/10.0001522)
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Research on the resonance frequency shift of the under water circular cylindrical shells

Published in Proceedings of the International Congress on Sound and Vibration., 2024

Recommended citation: S. Ye, B. Wang, J, Fan, K, Zhao, T. He and Y. Shou, Research on the resonance frequency shift of the under water circular cylindrical shells, Proceedings of the International Congress on Sound and Vibration., 202655 (2024).
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The effect of water surface roughness on the measurement of radiated ship noise

Published in Proc. Meet. Acoust., 2021

Recommended citation: T. He, V. Humphrey, S. Mo and E. Fang, The effect of water surface roughness on the measurement of radiated ship noise, Proc. Meet. Acoust., 40, 070019 (2020). (https://doi.org/10.1121/2.0001346)
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