Emmanuel Perrey‐Debain scite author profile

Classical finite-element and boundary-element formulations for the Helmholtz equation are presented, and their limitations with respect to the number of variables needed to model a wavelength are explained. A new type of approximation for the potential is described in which the usual finite-element and boundary-element shape functions are modified by the inclusion of a set of plane waves, propagating in a range of directions evenly distributed on the unit sphere. Compared with standard piecewise polynomial approximation, the plane-wave basis is shown to give considerable reduction in computational complexity. In practical terms, it is concluded that the frequency for which accurate results can be obtained, using these new techniques, can be up to 60 times higher than that of the conventional finite-element method, and 10 to 15 times higher than that of the conventional boundary-element method.

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Plane wave interpolation in direct collocation boundary element method for radiation and wave scattering: numerical aspects and applications

Perrey‐Debain

Trevelyan

Bettess

2003

Journal of Sound and Vibration

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Wave interpolation finite elements for Helmholtz problems with jumps in the wave speed

Laghrouche

Bettess

Perrey‐Debain

et al. 2005

Computer Methods in Applied Mechanics and Engineering

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Wave boundary elements: a theoretical overview presenting applications in scattering of short waves

Perrey‐Debain

Trevelyan

Bettess

2004

Engineering Analysis with Boundary Elements

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Performances of the Partition of Unity Finite Element Method for the analysis of two-dimensional interior sound fields with absorbing materials

Chazot

Nennig

Perrey‐Debain

2013

Journal of Sound and Vibration

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