The finite element computation of eddy current problems introduces numerical error. This error can only be estimated. Among all error estimators (EEs) already developed, two estimators, called residual and hierarchical EEs, proven to be reliable and efficient, are theoretically and numerically compared. Both estimators show similar behaviors and locations of the error
We consider H(curl;Ω)-elliptic problems that have been discretized by means of Nédélec's edge elemen...
International audienceThe eddy-current model is an approximation of the full Maxwell equations. We w...
Abstract—Four local error estimators used for a posteriori h-type adaptive finite-element mesh gener...
International audienceIn the domain of field computation with the finite-element method, choosing th...
Hierarchical error estimator for eddy current computation / R. Beck, R. Hiptmair, and B. Wohlmuth. -...
Hierarchical error estimator for eddy current computation / R. Beck, R. Hiptmair, and B. Wohlmuth. -...
Hierarchical error estimator for eddy current computation / R. Beck, R. Hiptmair, and B. Wohlmuth. -...
A strategy of mesh adaptation in eddy current finite element modeling is developed from both residua...
International audienceFor eddy current problems, potential formulations are widely used nowadays. In...
International audienceA local error estimation and adaptive meshing method for finite element analys...
International audienceA local error estimation and adaptive meshing method for finite element analys...
International audienceA local error estimation and adaptive meshing method for finite element analys...
International audienceA local error estimation and adaptive meshing method for finite element analys...
International audienceA local error estimation and adaptive meshing method for finite element analys...
We consider H(curl;Ω)-elliptic problems that have been discretized by means of Nédélec's edge elemen...
We consider H(curl;Ω)-elliptic problems that have been discretized by means of Nédélec's edge elemen...
International audienceThe eddy-current model is an approximation of the full Maxwell equations. We w...
Abstract—Four local error estimators used for a posteriori h-type adaptive finite-element mesh gener...
International audienceIn the domain of field computation with the finite-element method, choosing th...
Hierarchical error estimator for eddy current computation / R. Beck, R. Hiptmair, and B. Wohlmuth. -...
Hierarchical error estimator for eddy current computation / R. Beck, R. Hiptmair, and B. Wohlmuth. -...
Hierarchical error estimator for eddy current computation / R. Beck, R. Hiptmair, and B. Wohlmuth. -...
A strategy of mesh adaptation in eddy current finite element modeling is developed from both residua...
International audienceFor eddy current problems, potential formulations are widely used nowadays. In...
International audienceA local error estimation and adaptive meshing method for finite element analys...
International audienceA local error estimation and adaptive meshing method for finite element analys...
International audienceA local error estimation and adaptive meshing method for finite element analys...
International audienceA local error estimation and adaptive meshing method for finite element analys...
International audienceA local error estimation and adaptive meshing method for finite element analys...
We consider H(curl;Ω)-elliptic problems that have been discretized by means of Nédélec's edge elemen...
We consider H(curl;Ω)-elliptic problems that have been discretized by means of Nédélec's edge elemen...
International audienceThe eddy-current model is an approximation of the full Maxwell equations. We w...
Abstract—Four local error estimators used for a posteriori h-type adaptive finite-element mesh gener...