We present a multiple-scattering solver for nonconvex geometries obtained as the union of a finite number of convex obstacles. The algorithm is a finite element reformulation of a high-frequency integral equation technique proposed previously. It is based on an iterative solution of the scattering problem, where each iteration leads to the resolution of a single scattering problem in terms of a slowly oscillatory amplitude.status: publishe
An iterative integral equation method (IEM) is proposed for calculation of the electromagnetic (EM) ...
We consider two-dimensional scattering problems, formulated as an integral equation defined on the b...
We describe a fully discrete high-order algorithm for simulating multiple scattering of electromagne...
We present a multiple-scattering solver for nonconvex geometries obtained as the union of a finite n...
In this paper we propose a new method for solving high-frequency scattering problems by multiple obj...
In this paper, we present a multiple-scattering solver for nonconvex geometries such as those obtain...
peer reviewedThis paper presents a new method for solving scattering problems by multiple objects. A...
We present a new algorithm for the numerical solution of problems of electromagnetic or acoustic sca...
International audienceA finite element method in the frequency domain is proposed for solving scatte...
International audienceWe present a procedure to gain significant accuracy in the finite element solu...
SIGLETIB: RN 4020 (703) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische Informationsbi...
Abstract: The aim of this paper is to explain some recent numerical methods for solving high-frequen...
Engineering and Physical Sciences Research Council (EP/K000012/1)https://arxiv.org/abs/1903.0444
The transition matrix method for stationary elastic waves is extended to a great class of obstacles ...
We describe a fully discrete high-order algorithm for simulating low to medium frequency electromagn...
An iterative integral equation method (IEM) is proposed for calculation of the electromagnetic (EM) ...
We consider two-dimensional scattering problems, formulated as an integral equation defined on the b...
We describe a fully discrete high-order algorithm for simulating multiple scattering of electromagne...
We present a multiple-scattering solver for nonconvex geometries obtained as the union of a finite n...
In this paper we propose a new method for solving high-frequency scattering problems by multiple obj...
In this paper, we present a multiple-scattering solver for nonconvex geometries such as those obtain...
peer reviewedThis paper presents a new method for solving scattering problems by multiple objects. A...
We present a new algorithm for the numerical solution of problems of electromagnetic or acoustic sca...
International audienceA finite element method in the frequency domain is proposed for solving scatte...
International audienceWe present a procedure to gain significant accuracy in the finite element solu...
SIGLETIB: RN 4020 (703) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische Informationsbi...
Abstract: The aim of this paper is to explain some recent numerical methods for solving high-frequen...
Engineering and Physical Sciences Research Council (EP/K000012/1)https://arxiv.org/abs/1903.0444
The transition matrix method for stationary elastic waves is extended to a great class of obstacles ...
We describe a fully discrete high-order algorithm for simulating low to medium frequency electromagn...
An iterative integral equation method (IEM) is proposed for calculation of the electromagnetic (EM) ...
We consider two-dimensional scattering problems, formulated as an integral equation defined on the b...
We describe a fully discrete high-order algorithm for simulating multiple scattering of electromagne...