Integral formulations are attractive for solving eddy-current problems in complex electromagnetic systems, since they do not require the discretization of the complement of the conducting structures. This paper addresses the coupling of volume-integral and surface-integral formulations for eddy-current problems on general star-shaped polyhedral and polygonal meshes. \ua9 2017 IEEE
A novel 3-D integral formulation for solving eddy currents in thin conductors of any shape and topol...
We present a Volume Integral formulation for the solution of large scale eddy-current problems coupl...
A novel 3-D integral formulation for solving eddy currents in thin conducting structures with comple...
This paper presents a volume integral formulation to solve eddy current problems on general polyhedr...
We present an effective technique to solve eddy current problems on the conductors of arbitrary topo...
The volume integral equation method based on the current vector potential approximated by means edge...
International audienceA volume integral formulation to compute eddy currents in non-magnetic conduct...
International audienceIn this paper, we present a general circuit-coupled volume integral formulatio...
In the computational electromagnetism community it is known how the differential formulation of an e...
International audienceA volume integral formulation using facet elements to compute eddy currents in...
This contribution addresses the solution of eddy-current problems by means of a volume integral form...
La tesi sviluppa un codice a formulazione integrale per la risoluzione di problemi di correnti indot...
International audienceIn order to compute eddy current distributions in thin conductive nonmagnetic ...
This paper deals with the volume integral formulation of the eddy current problem in terms of the el...
Integral methods for solving eddy current problems use Biot–Savart law to produce non-local constitu...
A novel 3-D integral formulation for solving eddy currents in thin conductors of any shape and topol...
We present a Volume Integral formulation for the solution of large scale eddy-current problems coupl...
A novel 3-D integral formulation for solving eddy currents in thin conducting structures with comple...
This paper presents a volume integral formulation to solve eddy current problems on general polyhedr...
We present an effective technique to solve eddy current problems on the conductors of arbitrary topo...
The volume integral equation method based on the current vector potential approximated by means edge...
International audienceA volume integral formulation to compute eddy currents in non-magnetic conduct...
International audienceIn this paper, we present a general circuit-coupled volume integral formulatio...
In the computational electromagnetism community it is known how the differential formulation of an e...
International audienceA volume integral formulation using facet elements to compute eddy currents in...
This contribution addresses the solution of eddy-current problems by means of a volume integral form...
La tesi sviluppa un codice a formulazione integrale per la risoluzione di problemi di correnti indot...
International audienceIn order to compute eddy current distributions in thin conductive nonmagnetic ...
This paper deals with the volume integral formulation of the eddy current problem in terms of the el...
Integral methods for solving eddy current problems use Biot–Savart law to produce non-local constitu...
A novel 3-D integral formulation for solving eddy currents in thin conductors of any shape and topol...
We present a Volume Integral formulation for the solution of large scale eddy-current problems coupl...
A novel 3-D integral formulation for solving eddy currents in thin conducting structures with comple...