This paper considers the stability of an explicit Leap‐Frog time marching scheme for the simulation of acoustic wave propagation in heterogeneous media with high‐order spectral elements. The global stability criterion is taken as a minimum over local element stability criteria, obtained through the solution of element‐borne eigenvalue problems. First, an explicit stability criterion is obtained for the particular case of a strongly‐heterogeneous and/or rapidly‐fluctuating medium using asymptotic analysis. This criterion is only dependent upon the maximum velocity at the vertices of the mesh elements, and not on the velocity at the interior nodes of the high‐order elements. Second, in a more general setting, bounds are derived using statisti...
Computational modeling remains key to the acoustic design of various applications, but it is constra...
The acoustic wave equation is here discretized by conforming spectral elements in space and by the s...
Unbounded domains often appear in engineering applications, such as acoustic or elastic wave radiati...
International audienceThis paper considers the stability of an explicit LeapFrog time marching schem...
This paper presents a mathematical analysis of the stability of high-order spectral elemetns with ex...
International audienceThe explicit time-domain spectral-element method (SEM) for synthesizing seismo...
This paper presents a wave-based numerical scheme based on a spectral element method, coupled with a...
Highly efficient algorithms are needed for full wave modelling in large-scale realistic un-bounded m...
This paper presents a multiscale Petrov-Galerkin finite element method for time-harmonic acoustic sc...
In this paper, we investigate the stability of a numerical method for solving the wave equation. The...
International audienceWe introduce a time-domain, high-order in space, hybridizable discontinuous Ga...
This paper presents a numerical scheme of arbitrary order of accuracy in both space and time, based ...
AbstractA numerical approximation of the acoustic wave equation is presented. The spatial discretiza...
This work proposes a novel multiscale finite element method for acoustic wave propagation in highly ...
International audienceThe time domain simulation of wave propagation phenomena is a computationally ...
Computational modeling remains key to the acoustic design of various applications, but it is constra...
The acoustic wave equation is here discretized by conforming spectral elements in space and by the s...
Unbounded domains often appear in engineering applications, such as acoustic or elastic wave radiati...
International audienceThis paper considers the stability of an explicit LeapFrog time marching schem...
This paper presents a mathematical analysis of the stability of high-order spectral elemetns with ex...
International audienceThe explicit time-domain spectral-element method (SEM) for synthesizing seismo...
This paper presents a wave-based numerical scheme based on a spectral element method, coupled with a...
Highly efficient algorithms are needed for full wave modelling in large-scale realistic un-bounded m...
This paper presents a multiscale Petrov-Galerkin finite element method for time-harmonic acoustic sc...
In this paper, we investigate the stability of a numerical method for solving the wave equation. The...
International audienceWe introduce a time-domain, high-order in space, hybridizable discontinuous Ga...
This paper presents a numerical scheme of arbitrary order of accuracy in both space and time, based ...
AbstractA numerical approximation of the acoustic wave equation is presented. The spatial discretiza...
This work proposes a novel multiscale finite element method for acoustic wave propagation in highly ...
International audienceThe time domain simulation of wave propagation phenomena is a computationally ...
Computational modeling remains key to the acoustic design of various applications, but it is constra...
The acoustic wave equation is here discretized by conforming spectral elements in space and by the s...
Unbounded domains often appear in engineering applications, such as acoustic or elastic wave radiati...