arXiv:1811.11143 Abstract | arXiv Analytics

arXiv:1811.11143 [math.NA]Abstract References Reviews Resources

Some convergence and optimality results of adaptive mixed methods in finite element exterior calculus

Published 2018-11-27Version 1

In this paper, we present several new a posteriori error estimators for decoupled errors and two adaptive mixed finite element methods \textsf{AMFEM1} and \textsf{AMFEM2} for the Hodge Laplacian problem in finite element exterior calculus. We prove that \textsf{AMFEM1} and \textsf{AMFEM2} are both convergent starting from any initial coarse mesh. A suitably defined quasi error is crucial to the convergence analysis. In addition, we prove the optimality of \textsf{AMFEM2}. The main technical contribution is a localized discrete upper bound. Comparing to existing literature, our results work on Lipschitz domains with nontrivial cohomology and provide the first norm convergence and optimality results.

Comments: 23 pages

Categories: math.NA

Subjects: 65N30, 65N15

Keywords: finite element exterior calculus, adaptive mixed methods, optimality results, mixed finite element methods, posteriori error estimators

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