Goal-oriented h-adaptivity for the Helmholtz equation: error estimates, local indicators and refinement strategies

Author (s): Steffens, L. M.; Parés, N. and Díez, P.
Journal: Computational Mechanics

Volume: 47 Number 6
Pages: 681 – 699
Date: 2011

Abstract:
This paper introduces a new goal-oriented adap- tive technique based on a simple and effective post-process of the finite element approximations. The goal-oriented character of the estimate is achieved by analyzing both the direct problem and an auxiliary problem, denoted as adjoint or dual problem, which is related to the quantity of interest. Thus, the error estimation technique proposed in this paper would fall into the category of recovery-type explicit residual a posteriori error estimates. The procedure is valid for general linear quantities of interest and it is also extended to non-linear ones. The numerical examples demonstrate the efficiency of the proposed approach and discuss: 1) different error representations, 2) assessment of the dispersion error, and 3) different remeshing criteria.

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Bibtex:

@article{2011-CM-SPD
author={Steffens, L.; Parés, N. and Díez, P.},
title={Goal-oriented h-adaptivity for the Helmholtz equation: error estimates, local indicators and refinement strategies},
journal={Computational Mechanics},
volume={47},
number={6},
pages={681-699},
year={2011},
issn={0178-7675},
doi={10.1007/s00466-010-0557-2},
url={http://dx.doi.org/10.1007/s00466-010-0557-2},
}