A novel h-φ approach for solving 3-D time-harmonic eddy current problems is presented. It makes it possible to limit the number of degrees of freedom required for the discretization such as the T-Ω method, while overcoming topological issues related to it when multiply connected domains are considered. Global basis functions, needed for representing magnetic field in the insulating region, are obtained by a fast iterative solver. The computation of thick cuts by high-complexity computational topology tools, typically required by the T-Ω method, is thus avoided. The final matrix system turns out to be symmetric and full-rank unlike the more classical A-A method, which requires gauging of magnetic vector potential to ensure uniqueness. Numeri...
The three dimensional finite element formulation of eddy current problems with ac sinusoidally time ...
A novel 3-D integral formulation for solving eddy currents in thin conducting structures with comple...
AbstractThe effectiveness of the A–φ method in eddy current problems is widely known. On the other h...
A novel h-φ approach for solving 3-D time-harmonic eddy current problems is presented. It makes it p...
A novel h-phi approach for solving 3-D time-harmonic eddy current problems is presented. It makes it...
A hybrid a-Cell Method formulation for solving eddy-current problems in 3-D multiply-connected regio...
The fast solution of three-dimensional eddy current problems is still an open problem, especially wh...
A novel 3-D hybrid formulation for time-harmonic eddy current problems in multiply connected domains...
A new iterative method for computing three-dimensional steady-state magnetic fields with eddy curren...
This paper deals with 3D time-harmonic eddy current analyses using the A-φ method with the continuit...
The volume integral equation method based on the current vector potential approximated by means edge...
Abstract—A new iterative method for computing three-dimen-sional steady-state magnetic fields with e...
A novel 3-D integral formulation for solving eddy currents in thin conductors of any shape and topol...
AbstractIn this paper, we propose novel finite element A - θ approaches to realize the approximation...
\u3cp\u3ePurpose: The purpose of this paper is to describe a semi-analytical modeling technique to p...
The three dimensional finite element formulation of eddy current problems with ac sinusoidally time ...
A novel 3-D integral formulation for solving eddy currents in thin conducting structures with comple...
AbstractThe effectiveness of the A–φ method in eddy current problems is widely known. On the other h...
A novel h-φ approach for solving 3-D time-harmonic eddy current problems is presented. It makes it p...
A novel h-phi approach for solving 3-D time-harmonic eddy current problems is presented. It makes it...
A hybrid a-Cell Method formulation for solving eddy-current problems in 3-D multiply-connected regio...
The fast solution of three-dimensional eddy current problems is still an open problem, especially wh...
A novel 3-D hybrid formulation for time-harmonic eddy current problems in multiply connected domains...
A new iterative method for computing three-dimensional steady-state magnetic fields with eddy curren...
This paper deals with 3D time-harmonic eddy current analyses using the A-φ method with the continuit...
The volume integral equation method based on the current vector potential approximated by means edge...
Abstract—A new iterative method for computing three-dimen-sional steady-state magnetic fields with e...
A novel 3-D integral formulation for solving eddy currents in thin conductors of any shape and topol...
AbstractIn this paper, we propose novel finite element A - θ approaches to realize the approximation...
\u3cp\u3ePurpose: The purpose of this paper is to describe a semi-analytical modeling technique to p...
The three dimensional finite element formulation of eddy current problems with ac sinusoidally time ...
A novel 3-D integral formulation for solving eddy currents in thin conducting structures with comple...
AbstractThe effectiveness of the A–φ method in eddy current problems is widely known. On the other h...