A boundary condition for the truncation of the grid in finite-difference time-domain (FDTD) formulations is presented. The proposed technique restricts the computational domain by truncating the FDTD grid close to the scattering objects. By using the equivalence theorem, the proposed proce- dure yields a coupling between the region outside the boundary (exterior problem) and inside the boundary (interior problem). A resulting hybrid FDTD-method of moments technique is used to obtain a numerical solution of the coupled problems. Numerical applications demonstrate the validity of the proposed procedure
The finite difference-time domain algorithm is extended by means of finite integration technique to ...
Simulating electromagnetic waves is of increasing importance, for example, due to the rapidly growin...
Em muitas simulações eletromagnéticas utilizando o método FDTD, é desejado que os campos radiados pe...
Time-space absorbing-boundary conditions (ABC's) are employed to truncate finite-difference time-dom...
Innovative boundary conditions are proposed for the efficient truncation of FDTD grids in the analys...
Absorbing boundary conditions are developed for the efficient truncation of three-dimensional finite...
The finite difference time domain (FDTD) technique is a very powerful method for field evaluation in...
In this work, we present a new absorbing boundary condition for the finite-difference time-domain (F...
An off-grid boundary condition within Yee's finite-difference time-domain (FDTD) is presented. The b...
In the Finite Differences in the Time Domain (FD-TD) technique the knowledge of the field is often u...
International audienceIn this paper, improvements of the dual-grid finitedifference time-domain (DG-...
The finite difference time domain (FDTD) method has become a main stream analysis tool for engineers...
The finite difference-time domain algorithm is extended by means of finite integration technique to ...
Simulating electromagnetic waves is of increasing importance, for example, due to the rapidly growin...
Em muitas simulações eletromagnéticas utilizando o método FDTD, é desejado que os campos radiados pe...
Time-space absorbing-boundary conditions (ABC's) are employed to truncate finite-difference time-dom...
Innovative boundary conditions are proposed for the efficient truncation of FDTD grids in the analys...
Absorbing boundary conditions are developed for the efficient truncation of three-dimensional finite...
The finite difference time domain (FDTD) technique is a very powerful method for field evaluation in...
In this work, we present a new absorbing boundary condition for the finite-difference time-domain (F...
An off-grid boundary condition within Yee's finite-difference time-domain (FDTD) is presented. The b...
In the Finite Differences in the Time Domain (FD-TD) technique the knowledge of the field is often u...
International audienceIn this paper, improvements of the dual-grid finitedifference time-domain (DG-...
The finite difference time domain (FDTD) method has become a main stream analysis tool for engineers...
The finite difference-time domain algorithm is extended by means of finite integration technique to ...
Simulating electromagnetic waves is of increasing importance, for example, due to the rapidly growin...
Em muitas simulações eletromagnéticas utilizando o método FDTD, é desejado que os campos radiados pe...