Adaptive Finite Element Relaxation Schemes for Hyperbolic Conservation Laws

Adaptive Finite Element Relaxation Schemes for Hyperbolic Conservation Laws

We propose and study semidiscrete and fully discrete finite element schemes based on appropriate relaxation models for systems of Hyperbolic Conservation Laws. These schemes are using piecewise polynomials of arbitrary degree and their consistency error is of high order. The methods are combined wit...

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Veröffentlicht in:ESAIM. Mathematical modelling and numerical analysis 2001-01, Vol.35 (1), p.17-33
Hauptverfasser: Arvanitis, Christos, Katsaounis, Theodoros, Makridakis, Charalambos
Format: Artikel
Sprache:eng
Schlagworte:
35L65
65M50
65M60
82C40
adaptive methods
Applied mathematics
Approximation
Classical statistical mechanics
Computational mathematics
Conservation laws
Exact sciences and technology
finite elements
Kinetic theory
Mathematical analysis
Mathematics
Numerical analysis
Numerical analysis. Scientific computation
Partial differential equations
Partial differential equations, initial value problems and time-dependant initial-boundary value problems
Physics
Sciences and techniques of general use
Statistical physics, thermodynamics, and nonlinear dynamical systems
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Beschreibung
Zusammenfassung:We propose and study semidiscrete and fully discrete finite element schemes based on appropriate relaxation models for systems of Hyperbolic Conservation Laws. These schemes are using piecewise polynomials of arbitrary degree and their consistency error is of high order. The methods are combined with an adaptive strategy that yields fine mesh in shock regions and coarser mesh in the smooth parts of the solution. The computational performance of these methods is demonstrated by considering scalar problems and the system of elastodynamics.
ISSN:0764-583X
1290-3841
DOI:10.1051/m2an:2001105