Title :
Residual and equilibrated error estimators for magnetostatic problems solved by finite element method
Author :
Zuqi Tang ; Le Menach, Yvonnick ; Creuse, Emmanuel ; Nicaise, Serge ; Piriou, Francis ; Nemitz, N.
Author_Institution :
L2EP, Univ. Lille 1, Villeneuve d´Ascq, France
Abstract :
In finite element computations, the choice of the mesh is crucial to obtain accurate solutions. In order to evaluate the quality of the mesh, a posteriori error estimators can be used. In this paper, we develop residual-based error estimators for magnetostatic problems with both classical formulations in term of potentials used, as well as the equilibrated error estimator. We compare their behaviors on some numerical applications, to understand the interest of each of them in the remeshing process.
Keywords :
finite element analysis; magnetostatics; a posteriori error estimators; classical formulations; equilibrated error estimators; finite element method; magnetostatic problems; numerical applications; remeshing process; residual-based error estimators; Computational modeling; Estimation; Finite element analysis; Magnetic domains; Magnetostatics; Reliability; Vectors; Error estimator; finite element method; magnetostatic problem;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2271993
