[1] One of the methods to solve large electromagnetic problems is to divide the computational domain into smaller subregions and solve each subregion separately. Then the subregion solutions are combined to obtain a solution for the complete domain. In this paper, an iterative approach using the finite difference frequency domain method is presented to solve the problems that can be divided into separated subregions
Nested iterative solutions using full and approximate forms of the multilevel fast multipole algorit...
The finite difference time domain method has long been one of the most widely used numerical methods...
This paper describes the scattering matrix approach to obtain the solution to electromagnetic field ...
Abstract—This paper presents a hybrid technique, which combines the desirable features of two differ...
WOS: 000375596100024Integration of the finite-difference time-domain (FDTD) method into the iterativ...
This research aims to develop a novel domain decomposition finite-difference time domain technique (...
The authors introduce the iterative leap-field domain decomposition method that is tailored to the f...
The theoretical and numerical studies of electromagnetic scattering and radiation from perfectly con...
The integration of the finite-difference time-domain (FDTD) method into the iterative multi-region (...
A domain decomposition-finite difference time domain (DD-FDTD) method is proposed to solve the probl...
ii For electromagnetics problems involving complicated source patterns, scattering objects, and inho...
Recent advances in the parallel multilevel fast multipole algorithm have paved the way for large-sca...
This second volume in the Progress in Electromagnetic Research series examines recent advances in co...
In this dissertation, a general 3D frequency domain numerical method similar to the finite differenc...
This paper describes the scattering matrix approach to obtain the solution to electromagnetic field ...
Nested iterative solutions using full and approximate forms of the multilevel fast multipole algorit...
The finite difference time domain method has long been one of the most widely used numerical methods...
This paper describes the scattering matrix approach to obtain the solution to electromagnetic field ...
Abstract—This paper presents a hybrid technique, which combines the desirable features of two differ...
WOS: 000375596100024Integration of the finite-difference time-domain (FDTD) method into the iterativ...
This research aims to develop a novel domain decomposition finite-difference time domain technique (...
The authors introduce the iterative leap-field domain decomposition method that is tailored to the f...
The theoretical and numerical studies of electromagnetic scattering and radiation from perfectly con...
The integration of the finite-difference time-domain (FDTD) method into the iterative multi-region (...
A domain decomposition-finite difference time domain (DD-FDTD) method is proposed to solve the probl...
ii For electromagnetics problems involving complicated source patterns, scattering objects, and inho...
Recent advances in the parallel multilevel fast multipole algorithm have paved the way for large-sca...
This second volume in the Progress in Electromagnetic Research series examines recent advances in co...
In this dissertation, a general 3D frequency domain numerical method similar to the finite differenc...
This paper describes the scattering matrix approach to obtain the solution to electromagnetic field ...
Nested iterative solutions using full and approximate forms of the multilevel fast multipole algorit...
The finite difference time domain method has long been one of the most widely used numerical methods...
This paper describes the scattering matrix approach to obtain the solution to electromagnetic field ...