Perturbation and transformation electromagnetics methods are hybridized for solving electromagnetic scattering from objects with weakly perturbed surfaces within the context of finite element method. A mesh is generated for smooth surface and a transformation medium layer is designed over the smooth surface by using the coordinate transformation technique. The major advantage of this approach is that if multiple solutions are needed for a set of perturbed surfaces, such as in stochastic or inverse problems, computational load decreases to a great extent because the mesh and global matrix are formed only once, and only the right hand side vector is altered with respect to each of the perturbed surfaces. The approach is validated through nume...
We describe a fully discrete high-order algorithm for simulating low to medium frequency electromagn...
A hybrid algorithm of the finite element method (FEM) is presented to solve two-dimensional (2D) sca...
International audienceInverse electromagnetic scattering problems related to objects having inhomoge...
A numerical method is proposed for efficient solution of scattering from objects with weakly perturb...
The coordinate transformation technique (with its current name of transformation electromagnetics) i...
This paper presents a computational model that utilizes transformation-based metamaterials to enhanc...
The transformation electromagnetics is applied to the modeling of electromagnetic scattering from pe...
Electromagnetic scattering from a random array of objects is modeled by using special coordinate tra...
This paper presents coordinate transformation techniques for solving low-frequency electromagnetic b...
A computational model is introduced which employs transformation-based media to increase the computa...
We present a modified version of the curvilinear coordinate method (C.C.M.) for simulating electroma...
We introduce a new technique which remedies the drawbacks in the Finite Element solution of low-freq...
This paper is concerned with the mathematical analysis of the solution for the wave prop-agation fro...
In this thesis we study hybrid numerical methods to be used in computational electromagnetics. The p...
Purpose - To develop a sub-domain perturbation technique for efficiently modeling moving systems in ...
We describe a fully discrete high-order algorithm for simulating low to medium frequency electromagn...
A hybrid algorithm of the finite element method (FEM) is presented to solve two-dimensional (2D) sca...
International audienceInverse electromagnetic scattering problems related to objects having inhomoge...
A numerical method is proposed for efficient solution of scattering from objects with weakly perturb...
The coordinate transformation technique (with its current name of transformation electromagnetics) i...
This paper presents a computational model that utilizes transformation-based metamaterials to enhanc...
The transformation electromagnetics is applied to the modeling of electromagnetic scattering from pe...
Electromagnetic scattering from a random array of objects is modeled by using special coordinate tra...
This paper presents coordinate transformation techniques for solving low-frequency electromagnetic b...
A computational model is introduced which employs transformation-based media to increase the computa...
We present a modified version of the curvilinear coordinate method (C.C.M.) for simulating electroma...
We introduce a new technique which remedies the drawbacks in the Finite Element solution of low-freq...
This paper is concerned with the mathematical analysis of the solution for the wave prop-agation fro...
In this thesis we study hybrid numerical methods to be used in computational electromagnetics. The p...
Purpose - To develop a sub-domain perturbation technique for efficiently modeling moving systems in ...
We describe a fully discrete high-order algorithm for simulating low to medium frequency electromagn...
A hybrid algorithm of the finite element method (FEM) is presented to solve two-dimensional (2D) sca...
International audienceInverse electromagnetic scattering problems related to objects having inhomoge...