The performance of the second-order local approximate DtN boundary condition suggested in [4] is investigated analytically when employed for solving high-frequency exterior Helmholtz problems with elongated scatterers. This study is performed using a domain-based formulation and assuming the scatterer and the exterior artificial boundary to be prolate spheroid. The analysis proves that, in the high-frequency regime, the reflected waves at the artificial boundary decay faster than 1/(ka)15/8, where k is the wavenumber and a is the semi-major axis of this boundary. Numerical results are presented to illustrate the accuracy and the efficiency of the proposed absorbing boundary condition, and to provide guidelines for satisfactory performance. ...
The modeling of wave propagation problems using finite element methods usually requires the truncati...
International audienceWe develop and analyze a high-order outgoing radiation boundary condition for ...
With symmetric local absorbing boundary conditions for the Helmholtz equation scattering p...
The performance of the second-order local approximate DtN boundary condition suggested in [4] is inv...
International audienceWe investigate analytically the asymptotic behavior of high-order spurious pro...
The performance of the second order local approximate DtN boundary condition, suggested by the autho...
We propose a new class of three-dimensional absorbing boundary conditions to be employed on prolate ...
AbstractWe propose a new class of approximate local DtN boundary conditions to be applied on prolate...
International audienceNew approximate local DtN boundary conditions are proposed to be applied on el...
We propose a new class of approximate {\it local} DtN boundary conditions to be applied on prolate s...
New approximate local DtN boundary conditions are proposed to be set on elliptical- or prolate-spher...
We consider approximating the solution of the Helmholtz exterior Dirichlet problem for a nontrapping...
Wave equations in exterior domains typically include a boundary condition at infinity to ensure the ...
peer reviewedIn this paper, we are concerned with the construction of a new high-order Absorbing Bou...
International audienceWe deal with the finite element solution of 3D time-harmonic acoustic wave pro...
The modeling of wave propagation problems using finite element methods usually requires the truncati...
International audienceWe develop and analyze a high-order outgoing radiation boundary condition for ...
With symmetric local absorbing boundary conditions for the Helmholtz equation scattering p...
The performance of the second-order local approximate DtN boundary condition suggested in [4] is inv...
International audienceWe investigate analytically the asymptotic behavior of high-order spurious pro...
The performance of the second order local approximate DtN boundary condition, suggested by the autho...
We propose a new class of three-dimensional absorbing boundary conditions to be employed on prolate ...
AbstractWe propose a new class of approximate local DtN boundary conditions to be applied on prolate...
International audienceNew approximate local DtN boundary conditions are proposed to be applied on el...
We propose a new class of approximate {\it local} DtN boundary conditions to be applied on prolate s...
New approximate local DtN boundary conditions are proposed to be set on elliptical- or prolate-spher...
We consider approximating the solution of the Helmholtz exterior Dirichlet problem for a nontrapping...
Wave equations in exterior domains typically include a boundary condition at infinity to ensure the ...
peer reviewedIn this paper, we are concerned with the construction of a new high-order Absorbing Bou...
International audienceWe deal with the finite element solution of 3D time-harmonic acoustic wave pro...
The modeling of wave propagation problems using finite element methods usually requires the truncati...
International audienceWe develop and analyze a high-order outgoing radiation boundary condition for ...
With symmetric local absorbing boundary conditions for the Helmholtz equation scattering p...