Strictly equivalent a posteriori error estimators for quasi-optimal nonconforming methods
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Date
2025-02-04
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Abstract
We devise a posteriori error estimators for quasi-optimal nonconforming finite element methods approximating symmetric elliptic problems of second and fourth order. These estimators are defined for all source terms that are admissible to the underlying weak formulations. More importantly, they are equivalent to the error in a strict sense. In particular, their data oscillation part is bounded by the error and, furthermore, can be designed to be bounded by classical data oscillations. The estimators are computable, except for the data oscillation part. Since even the computation of some bound of the oscillation part is not possible in general, we advocate to handle it on a case-by-case basis. We illustrate the practical use of two estimators obtained for the Crouzeix-Raviart method applied to the Poisson problem with a source
term that is not a function and its singular part with respect to the Lebesgues measure is not aligned with the mesh.
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posteriori analysis, C0 interior penalty, discontinuous Galerkin, quasi-optimality, error-dominated oscillation, nonconforming finite elements