An explicit, adaptive, hybrid finite element/finite difference method is proposed for the numerical solution of Maxwell’s equations in the time domain. The method is hybrid in the sense that different numerical methods, finite elements and finite differences, are used in different parts of the computational domain. Thus, we combine the flexibility of finite elements with the efficiency of finite differences. Furthermore, an a posteriori error estimate is derived for local adaptivity and error control inside the subregion, where finite elements are used. Numerical experiments illustrate the usefulness of computational adaptive error control of proposed new method
ICEAA 2005 - 9th International Conference on Electromagnetics in Advanced Applications and EESC 2005...
This thesis is concerned with efficient and accurate numerical methods for the solution of Maxwell's...
[No abstract available]36003603Yee, K.S., Numerical Solution of Initial Boundary Value Problems Invo...
An explicit, adaptive, hybrid finite element/finite difference method is proposed forthe numerical s...
An explicit, adaptive, hybrid finite element/finite difference method is proposed for the numerical ...
A fully explicit, discontinuous hybrid finite element/finite difference method is proposed for the n...
A fully explicit, discontinuous hybrid finite element/finite difference method is proposed for the n...
A posteriori error estimates in each subdomain of a finite element tessellation provide the main ing...
The increasing demand to understand the behaviour of electromagnetic waves in many real life problem...
The increasing demand to understand the behaviour of electromagnetic waves in many real life problem...
We consider an implicit a posteriori error estimation technique for the adaptive solution of the Max...
In this thesis edge elements are applied to solve several problems in computational electromagnetics...
In this thesis edge elements are applied to solve several problems in computational electromagnetics...
In this paper we present a posteriori error estimates, and stability estimates for the time-dependen...
This thesis deals with the development and analysis of a discretization method and the error control...
ICEAA 2005 - 9th International Conference on Electromagnetics in Advanced Applications and EESC 2005...
This thesis is concerned with efficient and accurate numerical methods for the solution of Maxwell's...
[No abstract available]36003603Yee, K.S., Numerical Solution of Initial Boundary Value Problems Invo...
An explicit, adaptive, hybrid finite element/finite difference method is proposed forthe numerical s...
An explicit, adaptive, hybrid finite element/finite difference method is proposed for the numerical ...
A fully explicit, discontinuous hybrid finite element/finite difference method is proposed for the n...
A fully explicit, discontinuous hybrid finite element/finite difference method is proposed for the n...
A posteriori error estimates in each subdomain of a finite element tessellation provide the main ing...
The increasing demand to understand the behaviour of electromagnetic waves in many real life problem...
The increasing demand to understand the behaviour of electromagnetic waves in many real life problem...
We consider an implicit a posteriori error estimation technique for the adaptive solution of the Max...
In this thesis edge elements are applied to solve several problems in computational electromagnetics...
In this thesis edge elements are applied to solve several problems in computational electromagnetics...
In this paper we present a posteriori error estimates, and stability estimates for the time-dependen...
This thesis deals with the development and analysis of a discretization method and the error control...
ICEAA 2005 - 9th International Conference on Electromagnetics in Advanced Applications and EESC 2005...
This thesis is concerned with efficient and accurate numerical methods for the solution of Maxwell's...
[No abstract available]36003603Yee, K.S., Numerical Solution of Initial Boundary Value Problems Invo...