Coupling the BEM/TBEM and the MFS for the numerical simulation of acoustic wave propagation
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Publication:441594
DOI10.1016/j.enganabound.2009.11.003zbMath1244.76061OpenAlexW1979661947MaRDI QIDQ441594
Igor Castro, A. J. B. Tadeu, Julieta M. P. António
Publication date: 7 August 2012
Published in: Engineering Analysis with Boundary Elements (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.enganabound.2009.11.003
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Related Items (11)
Dynamic simulation of three-dimensional heat conduction through cylindrical inclusions using a BEM model formulated in the frequency domain ⋮ Modelling of acoustic and elastic wave propagation from underground structures using a 2.5D BEM-FEM approach ⋮ Coupling of boundary element and wave based methods for the efficient solution of complex multiple scattering problems ⋮ Local knot method for solving inverse Cauchy problems of Helmholtz equations on complicated two‐ and three‐dimensional domains ⋮ Coupling the BEM/TBEM and the MFS for the numerical simulation of wave propagation in heterogeneous fluid-solid media ⋮ A new approach for solving heat conduction under zero and non-zero initial conditions ⋮ Coupling of the BEM with the MFS for the numerical simulation of frequency domain 2-D elastic wave propagation in the presence of elastic inclusions and cracks ⋮ Closed form integration of singular and hypersingular integrals in 3D BEM formulations for heat conduction ⋮ Coupled BEM-MLPG acoustic analysis for non-homogeneous media ⋮ 3D acoustic wave simulation using BEM formulations: closed form integration of singular and hypersingular integrals ⋮ Acoustic analysis of heterogeneous domains coupling the BEM with Kansa's method
Cites Work
- Unnamed Item
- The use of simple solutions in the regularization of hypersingular boundary integral equations
- Wave propagation in the presence of empty cracks in an elastic medium
- Finite element analysis of acoustic scattering
- The method of fundamental solutions for elliptic boundary value problems
- Boundary collocation method for acoustic eigenanalysis of three-dimensional cavities using radial basis function
- The method of fundamental solutions for scattering and radiation problems.
- Closed-form integration of singular terms for constant, linear and quadratic boundary elements. I: SH wave propagation
- Hypersingular boundary integral equations have an additional free term
- Crack analysis using an enriched MFS domain decomposition technique
- 3D elastic wave propagation modelling in the presence of 2D fluid-filled thin inclusions
- On approximate cardinal preconditioning methods for solving PDEs with radial basis functions
- The method of fundamental solutions: a weighted least-squares approach
- Thin‐layer method: Formulation in the time domain
- Singular boundary elements for the analysis of cracks in plane strain
- A 2.5D TRACTION BOUNDARY ELEMENT METHOD FORMULATION APPLIED TO THE STUDY OF WAVE PROPAGATION IN A FLUID LAYER HOSTING A THIN RIGID BODY
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