A preconditioned 3-D multi-region fast multipole solver for seismic wave propagation in complex geometries

The analysis of seismic wave propagation and amplification in complex geological structures requires efficient numerical methods. In this article, following up on recent studies devoted to the formulation, implementation and evaluation of 3-D single- and multi-region elastodynamic fast multipole boundary element methods (FM-BEMs), a simple preconditioning strategy is proposed. Its efficiency is demonstrated on both the single- and multi-region versions using benchmark examples (scattering of plane waves by canyons and basins). Finally, the preconditioned FM-BEM is applied to the scattering of plane seismic waves in an actual configuration (alpine basin of Grenoble, France), for which the high velocity contrast is seen to significantly affect the overall efficiency of the multi-region FM-BEM.

Keywords

Fast Multipole Method Preconditionning strategy 3-D elastodynamics Seismic wavepropagation.

Domains

Solid mechanics [physics.class-ph] Solid mechanics [physics.class-ph]

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waves_FMM.pdf (2.55 Mo)

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https://hal.science/hal-00495193

Submitted on : Friday, June 25, 2010-3:14:47 PM

Last modification on : Wednesday, July 5, 2023-3:28:20 AM

Long-term archiving on: Monday, October 22, 2012-2:50:30 PM

Dates and versions

hal-00495193 , version 1 (25-06-2010)

Identifiers

HAL Id : hal-00495193 , version 1
DOI : 10.4208/cicp.231209.030111s

Cite

Stéphanie Chaillat, Jean-François Semblat, Marc Bonnet. A preconditioned 3-D multi-region fast multipole solver for seismic wave propagation in complex geometries. Communications in Computational Physics, 2012, 11, pp.594-609. ⟨10.4208/cicp.231209.030111s⟩. ⟨hal-00495193⟩

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