Inverse inequalities on non-quasi-uniform meshes and application to the mortar element method

We present a range of mesh-dependent inequalities for piecewise constant and continuous piecewise linear finite element functions u defined on locally refined shape-regular (but possibly non-quasi-uniform) meshes. These inequalities involve norms of the form \left\|h^{\alpha}u\right\| _{W^{s,p}(\Ome...

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Bibliographic Details
Published in:Mathematics of computation 2004-07, Vol.73 (247), p.1107-1138
Main Authors: DAHMEN, W, FAERMANN, B, GRAHAM, I. G, HACKBUSCH, W, SAUTER, S. A
Format: Article
Language:English
Subjects:
Approximation
Boundary element method
Degrees of freedom
Exact sciences and technology
Finite element method
Index sets
Mathematical constants
Mathematical functions
Mathematical inequalities
Mathematics
Methods of scientific computing (including symbolic computation, algebraic computation)
Numerical analysis
Numerical analysis. Scientific computation
Numerical approximation
Sciences and techniques of general use
Sobolev spaces
Vertices
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Summary:We present a range of mesh-dependent inequalities for piecewise constant and continuous piecewise linear finite element functions u defined on locally refined shape-regular (but possibly non-quasi-uniform) meshes. These inequalities involve norms of the form \left\|h^{\alpha}u\right\| _{W^{s,p}(\Omega)} for positive and negative s and \alpha, where h is a function which reflects the local mesh diameter in an appropriate way. The only global parameter involved is N, the total number of degrees of freedom in the finite element space, and we avoid estimates involving either the global maximum or minimum mesh diameter. Our inequalities include new variants of inverse inequalities as well as trace and extension theorems. They can be used in several areas of finite element analysis to extend results---previously known only for quasi-uniform meshes---to the locally refined case. Here we describe applications to (i) the theory of nonlinear approximation and (ii) the stability of the mortar element method for locally refined meshes.
ISSN:0025-5718
1088-6842
DOI:10.1090/S0025-5718-03-01583-7