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How a nonconvergent recovered Hessian works in mesh adaptation
Huang, Weizhang Kamenski, Lennard
Huang, Weizhang
Kamenski, Lennard
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Abstract
Hessian recovery has been commonly used in mesh adaptation for obtaining the required magnitude and direction information of the solution error. Unfortunately, a recovered Hessian from a linear finite element approximation is nonconvergent in general as the mesh is refined. It has been observed numerically that adaptive meshes based on such a nonconvergent recovered Hessian can nevertheless lead to an optimal error in the finite element approximation. This also explains why Hessian recovery is still widely used despite its nonconvergence. In this paper we develop an error bound for the linear finite element solution of a general boundary value problem under a mild assumption on the closeness of the recovered Hessian to the exact one. Numerical results show that this closeness assumption is satisfied by the recovered Hessian obtained with commonly used Hessian recovery methods. Moreover, it is shown that the finite element error changes gradually with the closeness of the recovered Hessian. This provides an explanation of how a nonconvergent recovered Hessian works in mesh adaptation.
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This is the published version, also available here: http://dx.doi.org/10.1137/120898796.
Date
2014-01-01
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Society for Industrial and Applied Mathematics
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Kamenski, Lennard & Huang, Weizhang "How a nonconvergent recovered Hessian works in mesh adaptation." SIAM J. Numer. Anal., 52(4), 1692–1708. (17 pages). http://dx.doi.org/10.1137/120898796.