Progressive refinements of inductors are done with a subproblem method, from their wire or filament representations with Biot–Savart models up to their volume finite-element models, from statics to dynamics. The reaction fields of additional magnetic and/or conducting regions are also considered. Accuracy improvements are efficiently obtained for local fields and global quantities, i.e., inductances, resistances, Joule losses, and forces
International audienceModel refinements of non-linear magnetic circuits are performed via a finite e...
In this paper, a methodology for refining the large-scale solutions obtained by 2-D magnetodynamic h...
peer reviewedModel refinements of magnetic circuits are performed via a subproblem finite element me...
International audienceProgressive refinements of inductors are done with a subproblem method, from t...
International audienceProgressive refinements of inductors are done with a subproblem method, from t...
peer reviewedThe modeling of inductors is split into a sequence of progressive finite element subpro...
peer reviewedA sub-problem finite element method is developed for refining the inductor models in ma...
peer reviewedWide range progressive refinements of the inductors in magnetic vector potential finite...
peer reviewedMagnetodynamic models are split into a sequence of progressive finite element subproble...
peer reviewedModel refinements of transformers are performed via a subproblem finite element method....
peer reviewedA progressive modeling of transformers is performed via a subproblem finite element met...
Model refinements of magnetic circuits are performed via a subdomain finite element method. A comple...
peer reviewedModel refinements of magnetic circuits are performed via a subdomain finite element met...
International audienceThe modeling of eddy currents in conductors is split into a sequence of progre...
In this paper, a methodology for refining the large-scale solutions obtained by 2-D magnetodynamic h...
International audienceModel refinements of non-linear magnetic circuits are performed via a finite e...
In this paper, a methodology for refining the large-scale solutions obtained by 2-D magnetodynamic h...
peer reviewedModel refinements of magnetic circuits are performed via a subproblem finite element me...
International audienceProgressive refinements of inductors are done with a subproblem method, from t...
International audienceProgressive refinements of inductors are done with a subproblem method, from t...
peer reviewedThe modeling of inductors is split into a sequence of progressive finite element subpro...
peer reviewedA sub-problem finite element method is developed for refining the inductor models in ma...
peer reviewedWide range progressive refinements of the inductors in magnetic vector potential finite...
peer reviewedMagnetodynamic models are split into a sequence of progressive finite element subproble...
peer reviewedModel refinements of transformers are performed via a subproblem finite element method....
peer reviewedA progressive modeling of transformers is performed via a subproblem finite element met...
Model refinements of magnetic circuits are performed via a subdomain finite element method. A comple...
peer reviewedModel refinements of magnetic circuits are performed via a subdomain finite element met...
International audienceThe modeling of eddy currents in conductors is split into a sequence of progre...
In this paper, a methodology for refining the large-scale solutions obtained by 2-D magnetodynamic h...
International audienceModel refinements of non-linear magnetic circuits are performed via a finite e...
In this paper, a methodology for refining the large-scale solutions obtained by 2-D magnetodynamic h...
peer reviewedModel refinements of magnetic circuits are performed via a subproblem finite element me...