Electromagnetic scattering from a random array of objects is modeled by using special coordinate transformations that are based on the form invariance property of Maxwell's equations. The main motivation is to perform multiple realizations of Monte Carlo simulations corresponding to different positions of objects in an efficient way by using a single mesh. This is achieved by locating transformation media within the computational domain. The proposed approach is applied to finite element method and tested by numerical experiments
We estimate the propagation of uncertainties in electromagnetic wave scattering problems. The comput...
This thesis aims to determine the distribution of the relative permittivity for random mixtures of m...
This paper evaluates the electromagnetic field deviation from its deterministic value when the elect...
This paper presents a computational model that utilizes transformation-based metamaterials to enhanc...
The coordinate transformation technique (with its current name of transformation electromagnetics) i...
Computational Electromagnetics (CEM) involves the process of modeling the interaction of elec...
The transformation electromagnetics is applied to the modeling of electromagnetic scattering from pe...
We present numerical solution techniques for efficiently handling multi-scale electromagnetic bounda...
We present spatial-coordinate transformation techniques to control the propagation of electromagneti...
A numerical method is proposed for efficient solution of scattering from objects with weakly perturb...
In this work, we develop a novel Monte Carlo method for solving the electromagnetic scattering probl...
Perturbation and transformation electromagnetics methods are hybridized for solving electromagnetic ...
This paper presents coordinate transformation techniques for solving low-frequency electromagnetic b...
A new local method for finite difference/finite element mesh truncation in the frequency domain is i...
A computational model is introduced which employs transformation-based media to increase the computa...
We estimate the propagation of uncertainties in electromagnetic wave scattering problems. The comput...
This thesis aims to determine the distribution of the relative permittivity for random mixtures of m...
This paper evaluates the electromagnetic field deviation from its deterministic value when the elect...
This paper presents a computational model that utilizes transformation-based metamaterials to enhanc...
The coordinate transformation technique (with its current name of transformation electromagnetics) i...
Computational Electromagnetics (CEM) involves the process of modeling the interaction of elec...
The transformation electromagnetics is applied to the modeling of electromagnetic scattering from pe...
We present numerical solution techniques for efficiently handling multi-scale electromagnetic bounda...
We present spatial-coordinate transformation techniques to control the propagation of electromagneti...
A numerical method is proposed for efficient solution of scattering from objects with weakly perturb...
In this work, we develop a novel Monte Carlo method for solving the electromagnetic scattering probl...
Perturbation and transformation electromagnetics methods are hybridized for solving electromagnetic ...
This paper presents coordinate transformation techniques for solving low-frequency electromagnetic b...
A new local method for finite difference/finite element mesh truncation in the frequency domain is i...
A computational model is introduced which employs transformation-based media to increase the computa...
We estimate the propagation of uncertainties in electromagnetic wave scattering problems. The comput...
This thesis aims to determine the distribution of the relative permittivity for random mixtures of m...
This paper evaluates the electromagnetic field deviation from its deterministic value when the elect...