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Coupling of a time domain boundary element method to compliant surface models

Hargreaves, JA; Cox, TJ

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Abstract

The Boundary Element Method (BEM) can be used to predict the scattering of sound in rooms. It reduces the problem of modelling the volume of air to one involving only the surfaces; hence the number of unknowns scales more favourably with problem size and frequency than it does for volumetric methods such as FEM and FDTD. The time domain BEM predicts the transient scattering of sound, and is usually solved in an iterative manner by marching on in time from known initial conditions. Accurate representation of surface properties is crucial to obtain realistic simulations and the use of surface impedance is an established solution to this for frequency-domain problems.

Recent research has successfully coupled digital filter representations of surface impedance to FDTD models, but the best way of achieving this for time domain BEM is currently unresolved. These authors have previously published work which coupled a time domain BEM to a surface-reflectance well model. This paper builds upon that work to couple state of the art material representations from FDTD with time domain BEM. Accuracy, efficiency and effect on algorithm stability are compared.

Citation

Hargreaves, J., & Cox, T. (2010, September). Coupling of a time domain boundary element method to compliant surface models. Presented at EAA Euroregio Conference, Ljubljana

Presentation Conference Type Lecture
Conference Name EAA Euroregio Conference
Conference Location Ljubljana
Start Date Sep 15, 2010
End Date Sep 18, 2010
Publication Date Jan 1, 2010
Deposit Date Jan 16, 2012
Publicly Available Date Apr 5, 2016
Additional Information Event Type : Conference

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