The Yee finite difference time domain (FDTD) algorithm is widely used in computational electromagnetics because of its simplicity, low computational costs and divergence free nature. The standard method uses a pair of staggered orthogonal cartesian meshes. However, accuracy losses result when it is used for modelling electromagnetic interactions with objects of arbitrary shape, because of the staircased representation of curved interfaces. For the solution of such problems, we generalise the approach and adopt an unstructured mesh FDTD method. This co-volume method is based upon the use of a Delaunay primal mesh and its high quality Voronoi dual. Computational efficiency is improved by employing a hybrid primal mesh, consisting of tetrahedr...
Time domain analysis of electromagnetic wave propagation is required for design and characterization...
Graduation date: 1997A new second order accurate nonuniform grid spacing technique which does not\ud...
In electromagnetic compatibility (EMC) context, we are interested in developing new ac- curate metho...
The standard Yee FDTD algorithm is widely used in computational electromagnetics because of its simp...
In computational electromagnetics, the advantages of the standard Yee algorithm are its simplicity a...
The standard Yee algorithm is widely used in computational electromagnetics because of its simplicit...
This article describes a cuboid structured mesh generator suitable for 3D numerical modelling using ...
This paper presents an algorithm used to automatically mesh a 3D computational domain in order to so...
The Finite Difference Time Domain (FDTD) method is limited by memory requirements and computation ti...
The most commonly used method for the time-domain Maxwell equations is the Finite-Difference Time-Do...
©2006 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
The finite difference time domain (FDTD) method is a popular technique, being used successfully to a...
Abstract—It is well-known that the finite-difference time-do-main (FDTD) method is subject to signif...
Numerical electromagnetic models, such as the finite difference time domain (FDTD) method, have many...
Simulating electromagnetic waves is of increasing importance, for example, due to the rapidly growin...
Time domain analysis of electromagnetic wave propagation is required for design and characterization...
Graduation date: 1997A new second order accurate nonuniform grid spacing technique which does not\ud...
In electromagnetic compatibility (EMC) context, we are interested in developing new ac- curate metho...
The standard Yee FDTD algorithm is widely used in computational electromagnetics because of its simp...
In computational electromagnetics, the advantages of the standard Yee algorithm are its simplicity a...
The standard Yee algorithm is widely used in computational electromagnetics because of its simplicit...
This article describes a cuboid structured mesh generator suitable for 3D numerical modelling using ...
This paper presents an algorithm used to automatically mesh a 3D computational domain in order to so...
The Finite Difference Time Domain (FDTD) method is limited by memory requirements and computation ti...
The most commonly used method for the time-domain Maxwell equations is the Finite-Difference Time-Do...
©2006 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
The finite difference time domain (FDTD) method is a popular technique, being used successfully to a...
Abstract—It is well-known that the finite-difference time-do-main (FDTD) method is subject to signif...
Numerical electromagnetic models, such as the finite difference time domain (FDTD) method, have many...
Simulating electromagnetic waves is of increasing importance, for example, due to the rapidly growin...
Time domain analysis of electromagnetic wave propagation is required for design and characterization...
Graduation date: 1997A new second order accurate nonuniform grid spacing technique which does not\ud...
In electromagnetic compatibility (EMC) context, we are interested in developing new ac- curate metho...