A decade of progress on anisotropic mesh adaptation for computational fluid dynamics

In the context of scientific computing, the mesh is used as a discrete support for the considered numerical methods. As a consequence, the mesh greatly impacts the efficiency, the stability and the accuracy of numerical methods. The goal of anisotropic mesh adaptation is to generate a mesh which fit...

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Published in	Computer aided design Vol. 72; pp. 13 - 39
Main Authors	Alauzet, Frédéric, Loseille, Adrien
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.03.2016 Elsevier
Subjects	Anisotropic mesh adaptation Computational fluid dynamic Computer Science Continuous mesh framework Inviscid flows Mathematics Metric Modeling and Simulation Numerical Analysis Anisotropic mesh adaptation Metric Computational fluid dynamic Continuous mesh framework Inviscid flows
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Abstract	In the context of scientific computing, the mesh is used as a discrete support for the considered numerical methods. As a consequence, the mesh greatly impacts the efficiency, the stability and the accuracy of numerical methods. The goal of anisotropic mesh adaptation is to generate a mesh which fits the application and the numerical scheme in order to achieve the best possible solution. It is thus an active field of research which is progressing continuously. This review article proposes a synthesis of the research activity of the INRIA Gamma3 team in the field of anisotropic mesh adaptation applied to inviscid flows in computational fluid dynamics since 2000. It shows the evolution of the theoretical and numerical results during this period. Finally, challenges for the next decade are discussed. •Steady and unsteady error estimates.•Adaptive mesh adaptation techniques.•Adjoint-based error estimates for Euler equations.•Remaining potential challenges for mesh generation.
AbstractList	In the context of scientific computing, the mesh is used as a discrete support for the considered numerical methods. As a consequence, the mesh greatly impacts the efficiency, the stability and the accuracy of numerical methods. The goal of anisotropic mesh adaptation is to generate a mesh which fits the application and the numerical scheme in order to achieve the best possible solution. It is thus an active field of research which is progressing continuously. This review article proposes a synthesis of the research activity of the INRIA Gamma3 team in the field of anisotropic mesh adaptation applied to inviscid flows in computational fluid dynamics since 2000. It shows the evolution of the theoretical and numerical results during this period. Finally, challenges for the next decade are discussed. •Steady and unsteady error estimates.•Adaptive mesh adaptation techniques.•Adjoint-based error estimates for Euler equations.•Remaining potential challenges for mesh generation. In the context of scientific computing, the mesh is used as a discrete support for the considered numerical methods. As a consequence, the mesh greatly impacts the efficiency, the stability and the accuracy of numerical methods. The goal of anisotropic mesh adaptation is to generate a mesh which fits the application and the numerical scheme in order to achieve the best possible solution. It is thus an active field of research which is progressing continuously. This review article proposes a synthesis of the research activity of the INRIA Gamma3 team in the field of anisotropic mesh adaptation applied to inviscid flows in computational fluid dynamics since 2000. It shows the evolution of the theoretical and numerical results during this period. Finally, challenges for the next decade are discussed.
Author	Loseille, Adrien Alauzet, Frédéric
Author_xml	– sequence: 1 givenname: Frédéric surname: Alauzet fullname: Alauzet, Frédéric email: Frederic.Alauzet@inria.fr – sequence: 2 givenname: Adrien surname: Loseille fullname: Loseille, Adrien email: Adrien.Loseille@inria.fr
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Keywords	Anisotropic mesh adaptation Metric Computational fluid dynamic Continuous mesh framework Inviscid flows
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Snippet	In the context of scientific computing, the mesh is used as a discrete support for the considered numerical methods. As a consequence, the mesh greatly impacts...
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SubjectTerms	Anisotropic mesh adaptation Computational fluid dynamic Computer Science Continuous mesh framework Inviscid flows Mathematics Metric Modeling and Simulation Numerical Analysis
Title	A decade of progress on anisotropic mesh adaptation for computational fluid dynamics
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