Higher order mixed FEM for the obstacle problem of the p-Laplace equation using biorthogonal systems

Banz, Lothar; Lamichhane, Bishnu P.; Stephan, Ernst P.

Title: Higher order mixed FEM for the obstacle problem of the p-Laplace equation using biorthogonal systems
Creator: Banz, Lothar; Lamichhane, Bishnu P.; Stephan, Ernst P.
Relation: Computational Methods in Applied Mathematics Vol. 19, Issue 2, p. 169-188
Publisher Link: http://dx.doi.org/10.1515/cmam-2018-0015
Publisher: Walter de Gruyter GmbH
Resource Type: journal article
Date: 2018
Description: We consider a mixed finite element method for an obstacle problem with the p-Laplace differential operator for p∈(1,∞), where the obstacle condition is imposed by using a Lagrange multiplier. In the discrete setting the Lagrange multiplier basis forms a biorthogonal system with the standard finite element basis so that the variational inequality can be realized in the point-wise form. We provide a general a posteriori error estimate for adaptivity and prove an a priori error estimate. We present numerical results for the adaptive scheme (mesh-size adaptivity with and without polynomial degree adaptation) for the singular case p=1.5 and the degenerated case p=3. We also present numerical results on the mesh independency and on the polynomial degree scaling of the discrete inf-sup constant when using biorthogonal basis functions for the dual variable defined on the same mesh with the same polynomial degree distribution.
Subject: a priori error estimate; a posteriori error estimate; discrete Inf-Sup constant; 65N30; 65N15; 74M15; p-Laplace obstacle problem
Identifier: http://hdl.handle.net/1959.13/1417064
Identifier: uon:37156
Identifier: ISSN:1609-4840
Language: eng
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