The famous scientist Hermann von Helmholtz was born 200 years ago. Many complex physical wave phenomena in engineering can effectively be described using one or a set of equations named after him: the Helmholtz equation. Although this has been known for a long time from a theoretical point of view, the actual numerical implementation has often been hindered by divergence free and/or curl free constraints. There is further a need for a numerical method that is accurate, reliable and takes into account radiation conditions at infinity. The classical boundary element method (BEM) satisfies the last condition, yet one has to deal with singularities in the implementation. We review here how a recently developed singularity-free three-dimensional...
This chapter presents the application of the boundary element method to high-frequency Helmholtz pro...
In this paper we use an enriched approximation space for the efficient and accurate solution of the ...
We propose a method for efficient evaluation of surface integrals arising in boundary element metho...
The problem of non-unique solutions at fictitious frequencies that can appear in the boundary elemen...
Abstract: Novel non-hyper-singular [i.e., only strongly-singular] boundary-integral-equations for th...
This edited volume offers a state of the art overview of fast and robust solvers for the Helmholtz e...
The displacement field for three dimensional dynamic elasticity problems in the frequency domain can...
The Laplace and Helmholtz equations are two of the most important partial differential equations (PD...
tial equation, in conjunction with vector test-functions (which are gradients of the fundamental sol...
AbstractTo solve the Helmholtz equation in an infinite three-dimensional domain a spherical artifici...
ABSTRACTWhen modeling wave propagation, truncation of the computational domain to a manageable size ...
Element based methods, such as the finite element method and the boundary element method, are most c...
International audienceWe deal with the finite element solution of 3D time-harmonic acoustic wave pro...
We present algorithms for computing weakly singular and near-singular integrals arising when solving...
A boundary integral formulation for the solution of the Helmholtz equation is developed in which all...
This chapter presents the application of the boundary element method to high-frequency Helmholtz pro...
In this paper we use an enriched approximation space for the efficient and accurate solution of the ...
We propose a method for efficient evaluation of surface integrals arising in boundary element metho...
The problem of non-unique solutions at fictitious frequencies that can appear in the boundary elemen...
Abstract: Novel non-hyper-singular [i.e., only strongly-singular] boundary-integral-equations for th...
This edited volume offers a state of the art overview of fast and robust solvers for the Helmholtz e...
The displacement field for three dimensional dynamic elasticity problems in the frequency domain can...
The Laplace and Helmholtz equations are two of the most important partial differential equations (PD...
tial equation, in conjunction with vector test-functions (which are gradients of the fundamental sol...
AbstractTo solve the Helmholtz equation in an infinite three-dimensional domain a spherical artifici...
ABSTRACTWhen modeling wave propagation, truncation of the computational domain to a manageable size ...
Element based methods, such as the finite element method and the boundary element method, are most c...
International audienceWe deal with the finite element solution of 3D time-harmonic acoustic wave pro...
We present algorithms for computing weakly singular and near-singular integrals arising when solving...
A boundary integral formulation for the solution of the Helmholtz equation is developed in which all...
This chapter presents the application of the boundary element method to high-frequency Helmholtz pro...
In this paper we use an enriched approximation space for the efficient and accurate solution of the ...
We propose a method for efficient evaluation of surface integrals arising in boundary element metho...