Convergent meshfree approximation schemes of arbitrary order and smoothness

Local Maximum-Entropy (LME) approximation schemes are meshfree approximation schemes that satisfy consistency conditions of order one, i.e., they approximate affine functions exactly. In addition, LME approximation schemes converge in the Sobolev space W1,p, i.e., they are C0-continuous in the conve...

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Bibliographic Details
Published in:Computer methods in applied mechanics and engineering 2012-05, Vol.221-222, p.83-103
Main Authors: Bompadre, A., Perotti, L.E., Cyron, C.J., Ortiz, M.
Format: Article
Language:English
Subjects:
Convergence analysis
High-order interpolation
Meshfree interpolation
Smooth interpolation
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Summary:Local Maximum-Entropy (LME) approximation schemes are meshfree approximation schemes that satisfy consistency conditions of order one, i.e., they approximate affine functions exactly. In addition, LME approximation schemes converge in the Sobolev space W1,p, i.e., they are C0-continuous in the conventional terminology of finite-element interpolation. Here we present a generalization of the Local Max-Ent approximation schemes that are consistent to arbitrary order, i.e., interpolate polynomials of arbitrary degree exactly, and which converge in Wk,p, i.e., they are Ck-continuous to arbitrary order k. We refer to these approximation schemes as High Order Local Maximum-Entropy Approximation Schemes (HOLMES). We prove uniform error bounds for the HOLMES approximates and their derivatives up to order k. Moreover, we show that the HOLMES of order k is dense in the Sobolev space Wk,p, for any 1⩽p
ISSN:0045-7825
1879-2138
DOI:10.1016/j.cma.2012.01.020