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Error bounds for the finite element approximation of a degenerate quasilinear parabolic variational inequality

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Abstract

In this paper, we establish some error bounds for the continuous piecewise linear finite element approximation of the following problem: Let Ω be an open set in ℝd, withd=1 or 2. GivenT>0,p ∈ (1, ∞),f andu 0; finduK, whereK is a closed convex subset of the Sobolev spaceW 1,p0 (Ω), such that for anyvK

$$\begin{gathered} \int\limits_\Omega {u_1 (\upsilon - u) dx + } \int\limits_\Omega {\left| {\nabla u} \right|^{p - 2} } \nabla u \cdot \nabla (\upsilon - u) dx \geqslant \int\limits_\Omega {f(\upsilon - u) dx for} a.e. t \in (0,T], \hfill \\ u = 0 on \partial \Omega \times (0,T] and u(0,x) = u_0 (x) for x \in \Omega . \hfill \\ \end{gathered} $$

We prove error bounds in energy type norms for the fully discrete approximation using the backward Euler time discretisation. In some notable cases, these error bounds converge at the optimal rate with respect to the space discretisation, provided the solutionu is sufficiently regular.

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Authors and Affiliations

  1. Department of Mathematics, Imperial College, SW7 2BZ, London, UK

    W. B. Liu & John W. Barrett

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  1. W. B. Liu
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  2. John W. Barrett
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Additional information

This paper is presented as an outcome of the LMS Durham Symposium convened by Professor C.T.H. Baker on 4–14 July 1992, with support from the SERC under grant reference number GR/H03964.

Supported by SERC Grant GR/F81255.

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Liu, W.B., Barrett, J.W. Error bounds for the finite element approximation of a degenerate quasilinear parabolic variational inequality. Adv Comput Math 1, 223–239 (1993). https://doi.org/10.1007/BF02071387

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