AbstractFinite element methods are introduced for the approximate solution of periodic acoustic problems. A least squares technique is used for those problems which are governed by a first order system of partial differential equations while for second order equations, a Galerkin/multigrid technique is employed. In both cases, the solution process for the algebraic system resulting from discretization is iterative in character
Wave propagation problems can be modeled by partial differential equations. In this thesis, we study...
International audienceThis monograph presents numerical methods for solving transient wave equations...
Recent developments in wave-based numerical methods are reviewed in application to problems in acous...
Finite element methods are introduced for the approximate solution of periodic acoustic problems. A ...
AbstractFinite element methods are introduced for the approximate solution of periodic acoustic prob...
International audienceLeast-squares stabilization stands out among the numerous approaches that have...
State-of-the-art computational methods for linear acoustics are reviewed. The equations of linear ac...
This work describes two perspectives for understanding the numerical difficulties that arise in the ...
This paper presents an overview of the acoustic wave equation and the common time-domain numerical s...
In these lecture notes we introduce the boundary element method and de-scribe how it can be used to ...
The finite element method is the most commonly used numerical prediction technique for solving engin...
A space-time nite element method for solution of the exterior structural acoustics problem involving...
AbstractThe time harmonic acoustic boundary value problem in a smooth, bounded domain G of R2 is con...
Among numerical methods applied in acoustics, the Finite Element Method (FEM) is normally favored fo...
A numerical approximation of the acoustic wave equation is presented. The spatial discretization is ...
Wave propagation problems can be modeled by partial differential equations. In this thesis, we study...
International audienceThis monograph presents numerical methods for solving transient wave equations...
Recent developments in wave-based numerical methods are reviewed in application to problems in acous...
Finite element methods are introduced for the approximate solution of periodic acoustic problems. A ...
AbstractFinite element methods are introduced for the approximate solution of periodic acoustic prob...
International audienceLeast-squares stabilization stands out among the numerous approaches that have...
State-of-the-art computational methods for linear acoustics are reviewed. The equations of linear ac...
This work describes two perspectives for understanding the numerical difficulties that arise in the ...
This paper presents an overview of the acoustic wave equation and the common time-domain numerical s...
In these lecture notes we introduce the boundary element method and de-scribe how it can be used to ...
The finite element method is the most commonly used numerical prediction technique for solving engin...
A space-time nite element method for solution of the exterior structural acoustics problem involving...
AbstractThe time harmonic acoustic boundary value problem in a smooth, bounded domain G of R2 is con...
Among numerical methods applied in acoustics, the Finite Element Method (FEM) is normally favored fo...
A numerical approximation of the acoustic wave equation is presented. The spatial discretization is ...
Wave propagation problems can be modeled by partial differential equations. In this thesis, we study...
International audienceThis monograph presents numerical methods for solving transient wave equations...
Recent developments in wave-based numerical methods are reviewed in application to problems in acous...