<p>In this work, we proposed a spectral integral method (SIM)-spectral element method (SEM)- finite element method (FEM) domain decomposition method (DDM) for solving inhomogeneous multi-scale problems. The proposed SIM-SEM-FEM domain decomposition algorithm can efficiently handle problems with multi-scale structures, </p><p>by using FEM to model electrically small sub-domains and using SEM to model electrically large and smooth sub-domains. The SIM is utilized as an efficient boundary condition. This combination can reduce the total number of elements used in solving multi-scale problems, thus it is more efficient than conventional FEM or conventional FEM domain decomposition method. Another merit of the proposed method is that it is ca...
Cette étude s’inscrit dans le domaine de la simulation électromagnétique des problèmes de grande tai...
The authors introduce the iterative leap-field domain decomposition method that is tailored to the f...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
International audienceWe introduce a Domain Decomposition Spectral Method (DDSM) as a solution for M...
The field calculus for electrical machines (EMs) is realized solving subdomain problems. Most often,...
Abstract—This paper first presents a spectral integral method (SIM) for electromagnetic scattering f...
A parallel spectral modal method is introduced for the frequency-domain Maxwell’s equations. The met...
A domain decomposition method is introduced to facilitate the efficient and rigorous computation of ...
<p>In this study we propose a fast hybrid spectral-element time-domain (SETD) / finite-element time-...
We review non-conformal domain decomposition methods (DDMs) and their applications in solving electr...
We present a fully unstructured, parallel spectral element method based on domain decomposition. The...
In this paper, a novel non-overlapping and noncon-formal domain decomposition method (DDM) based on ...
An efficient solver is described for the solution of the electromagnetic fields in both time and fre...
Finite element (FE) method, boundary (B) and volume (V) integral equation (IE) methods are among the...
In this paper, a parallel nonoverlapping and nonconformal domain decomposition method (DDM) is propo...
Cette étude s’inscrit dans le domaine de la simulation électromagnétique des problèmes de grande tai...
The authors introduce the iterative leap-field domain decomposition method that is tailored to the f...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
International audienceWe introduce a Domain Decomposition Spectral Method (DDSM) as a solution for M...
The field calculus for electrical machines (EMs) is realized solving subdomain problems. Most often,...
Abstract—This paper first presents a spectral integral method (SIM) for electromagnetic scattering f...
A parallel spectral modal method is introduced for the frequency-domain Maxwell’s equations. The met...
A domain decomposition method is introduced to facilitate the efficient and rigorous computation of ...
<p>In this study we propose a fast hybrid spectral-element time-domain (SETD) / finite-element time-...
We review non-conformal domain decomposition methods (DDMs) and their applications in solving electr...
We present a fully unstructured, parallel spectral element method based on domain decomposition. The...
In this paper, a novel non-overlapping and noncon-formal domain decomposition method (DDM) based on ...
An efficient solver is described for the solution of the electromagnetic fields in both time and fre...
Finite element (FE) method, boundary (B) and volume (V) integral equation (IE) methods are among the...
In this paper, a parallel nonoverlapping and nonconformal domain decomposition method (DDM) is propo...
Cette étude s’inscrit dans le domaine de la simulation électromagnétique des problèmes de grande tai...
The authors introduce the iterative leap-field domain decomposition method that is tailored to the f...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...