A Posteriori Local Discontinuous Galerkin Error Estimation for Two-Dimensional Convection–Diffusion Problems

Mahboub Baccouch; Slimane Adjerid

doi:10.1007/s10915-014-9861-x

A Posteriori Local Discontinuous Galerkin Error Estimation for Two-Dimensional Convection–Diffusion Problems

Mahboub Baccouch, Slimane Adjerid

Mathematics

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

We present a simple, efficient, and asymptotically correct a posteriori error estimates for a minimal dissipation local discontinuous Galerkin method applied to two-dimensional diffusion and convection–diffusion problems on rectangular meshes. The finite element spaces are obtained by performing a local error analysis and a posteriori error estimates are computed by solving local problems on each element. We present computational results for several problems to show the efficiency and accuracy of our error estimates. It is shown that even in the presence of boundary layers our error estimates converge to the true error under mesh refinement when Shishkin meshes are used.

Original language	English (US)
Pages (from-to)	399-430
Number of pages	32
Journal	Journal of Scientific Computing
Volume	62
Issue number	2
DOIs	https://doi.org/10.1007/s10915-014-9861-x
State	Published - Feb 2014

Keywords

A posteriori error estimates
Convection–diffusion problems
Local discontinuous Galerkin method
Superconvergence

ASJC Scopus subject areas

Software
Theoretical Computer Science
Numerical Analysis
General Engineering
Computational Mathematics
Computational Theory and Mathematics
Applied Mathematics

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title = "A Posteriori Local Discontinuous Galerkin Error Estimation for Two-Dimensional Convection–Diffusion Problems",

abstract = "We present a simple, efficient, and asymptotically correct a posteriori error estimates for a minimal dissipation local discontinuous Galerkin method applied to two-dimensional diffusion and convection–diffusion problems on rectangular meshes. The finite element spaces are obtained by performing a local error analysis and a posteriori error estimates are computed by solving local problems on each element. We present computational results for several problems to show the efficiency and accuracy of our error estimates. It is shown that even in the presence of boundary layers our error estimates converge to the true error under mesh refinement when Shishkin meshes are used.",

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AU - Adjerid, Slimane

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N2 - We present a simple, efficient, and asymptotically correct a posteriori error estimates for a minimal dissipation local discontinuous Galerkin method applied to two-dimensional diffusion and convection–diffusion problems on rectangular meshes. The finite element spaces are obtained by performing a local error analysis and a posteriori error estimates are computed by solving local problems on each element. We present computational results for several problems to show the efficiency and accuracy of our error estimates. It is shown that even in the presence of boundary layers our error estimates converge to the true error under mesh refinement when Shishkin meshes are used.

AB - We present a simple, efficient, and asymptotically correct a posteriori error estimates for a minimal dissipation local discontinuous Galerkin method applied to two-dimensional diffusion and convection–diffusion problems on rectangular meshes. The finite element spaces are obtained by performing a local error analysis and a posteriori error estimates are computed by solving local problems on each element. We present computational results for several problems to show the efficiency and accuracy of our error estimates. It is shown that even in the presence of boundary layers our error estimates converge to the true error under mesh refinement when Shishkin meshes are used.

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KW - Convection–diffusion problems

KW - Local discontinuous Galerkin method

KW - Superconvergence

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A Posteriori Local Discontinuous Galerkin Error Estimation for Two-Dimensional Convection–Diffusion Problems

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Keywords

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