Approximating Gradients with Continuous Piecewise Polynomial Functions

Approximating Gradients with Continuous Piecewise Polynomial Functions

Motivated by conforming finite element methods for elliptic problems of second order, we analyze the approximation of the gradient of a target function by continuous piecewise polynomial functions over a simplicial mesh. The main result is that the global best approximation error is equivalent to an...

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Veröffentlicht in:Foundations of computational mathematics 2016-06, Vol.16 (3), p.723-750
1. Verfasser: Veeser, Andreas
Format: Artikel
Sprache:eng
Schlagworte:
Applications of Mathematics
Approximation
Approximation theory
Computer Science
Economics
Equivalence
Functions, Continuous
Linear and Multilinear Algebras
Math Applications in Computer Science
Mathematical analysis
Mathematical models
Mathematical research
Mathematics
Mathematics and Statistics
Matrix Theory
Numerical Analysis
Permissible error
Polynomials
Regularity
Smoothness
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Beschreibung
Zusammenfassung:Motivated by conforming finite element methods for elliptic problems of second order, we analyze the approximation of the gradient of a target function by continuous piecewise polynomial functions over a simplicial mesh. The main result is that the global best approximation error is equivalent to an appropriate sum in terms of the local best approximation errors on elements. Thus, requiring continuity does not downgrade local approximation capability and discontinuous piecewise polynomials essentially do not offer additional approximation power, even for a fixed mesh. This result implies error bounds in terms of piecewise regularity over the whole admissible smoothness range. Moreover, it allows for simple local error functionals in adaptive tree approximation of gradients.
ISSN:1615-3375
1615-3383
DOI:10.1007/s10208-015-9262-z