International audienceThis paper introduces a new formulation of high-frequency time-harmonic scattering problems in view of a numerical finite element solution. It is well-known that pollution error causes inaccuracies in the finite element solution of short-wave problems. To partially avoid this precision problem, the strategy proposed here consists in firstly numerically computing at a low cost an approximate phase of the exact solution through asymptotic propagative models. Secondly, using this approximate phase, a slowly varying unknown envelope is introduced and is computed using coarser mesh grids. The global procedure is called Phase Reduction. In this first paper, the general theoretical procedure is developed and low-order propaga...
International audienceA new finite element heterogeneous multiscale method (FE-HMM) is proposed for ...
International audienceIn this paper, the performance of the finite element method based on Lagrange ...
The problem of simulating the scattering of (acoustic, electromagnetic, elastic) waves has provided ...
International audienceWe present a procedure to gain significant accuracy in the finite element solu...
International audienceWe introduce a new numerical method for solving time-harmonic acoustic scatter...
International audienceWe study the application of a B-splines Finite Element Method to time-harmonic...
The approximation of wave problems, particularly at high frequencies, with the classical finite elem...
We study the application of a B-splines Finite Element Method (FEM) to time-harmonic scattering acou...
In this work, the Bernstein-Bézier Finite Element Method (BBFEM) is implemented to solve short wave ...
In this paper, two high-order finite element models are investigated for the solution of two-dimensi...
International audienceThe numerical solution of wave propagation problems on very large domains (wit...
International audienceThe heterogeneous Helmholtz equation is used in Geophysics to model the propag...
Several recent numerical schemes for high frequency scattering simulations are based on the extracti...
Paper presented at the 3rd Strathmore International Mathematics Conference (SIMC 2015), 3 - 7 August...
International audienceThis work presents an enriched finite element method (FEM) dedicated to the nu...
International audienceA new finite element heterogeneous multiscale method (FE-HMM) is proposed for ...
International audienceIn this paper, the performance of the finite element method based on Lagrange ...
The problem of simulating the scattering of (acoustic, electromagnetic, elastic) waves has provided ...
International audienceWe present a procedure to gain significant accuracy in the finite element solu...
International audienceWe introduce a new numerical method for solving time-harmonic acoustic scatter...
International audienceWe study the application of a B-splines Finite Element Method to time-harmonic...
The approximation of wave problems, particularly at high frequencies, with the classical finite elem...
We study the application of a B-splines Finite Element Method (FEM) to time-harmonic scattering acou...
In this work, the Bernstein-Bézier Finite Element Method (BBFEM) is implemented to solve short wave ...
In this paper, two high-order finite element models are investigated for the solution of two-dimensi...
International audienceThe numerical solution of wave propagation problems on very large domains (wit...
International audienceThe heterogeneous Helmholtz equation is used in Geophysics to model the propag...
Several recent numerical schemes for high frequency scattering simulations are based on the extracti...
Paper presented at the 3rd Strathmore International Mathematics Conference (SIMC 2015), 3 - 7 August...
International audienceThis work presents an enriched finite element method (FEM) dedicated to the nu...
International audienceA new finite element heterogeneous multiscale method (FE-HMM) is proposed for ...
International audienceIn this paper, the performance of the finite element method based on Lagrange ...
The problem of simulating the scattering of (acoustic, electromagnetic, elastic) waves has provided ...