The interest in Galerkin methods for the approximation of partial differential equations on polytopal meshes has recently grown. The virtual element method (VEM) is one of the most successful approaches enabling computation on such meshes. So far, only the h version of the method has been investigated; here, the convergence of the error is obtained by keeping fixed the dimension of local spaces, while refining the mesh. Contrarily, the p version of a Galerkin method consists in achieving convergence by keeping fixed the decomposition of the domain and increasing the dimension of local spaces. The combination of the h and p versions goes under the name of hp version of the method under consideration. The present thesis aims to dovetail the technology of VEM with the p and the hp refinement strategies. Particular emphasis is offered to the approximation of Poisson and Laplace problems, a priori and a posteriori error analysis, multigrid solvers, stabilization of the method and ill-conditioning of the stiffness matrix.
THE HP VERSION OF THE VIRTUAL ELEMENT METHOD / L. Mascotto ; advisor: A. Chernov, S. Scacchi ; coadvisor: L. Beirao da Veiga ; coordinator of the PhD program: V. Mastropiero. DIPARTIMENTO DI MATEMATICA "FEDERIGO ENRIQUES", 2018 Feb 26. 30. ciclo, Anno Accademico 2017. [10.13130/mascotto-lorenzo_phd2018-02-26].
THE HP VERSION OF THE VIRTUAL ELEMENT METHOD
L. Mascotto
2018
Abstract
The interest in Galerkin methods for the approximation of partial differential equations on polytopal meshes has recently grown. The virtual element method (VEM) is one of the most successful approaches enabling computation on such meshes. So far, only the h version of the method has been investigated; here, the convergence of the error is obtained by keeping fixed the dimension of local spaces, while refining the mesh. Contrarily, the p version of a Galerkin method consists in achieving convergence by keeping fixed the decomposition of the domain and increasing the dimension of local spaces. The combination of the h and p versions goes under the name of hp version of the method under consideration. The present thesis aims to dovetail the technology of VEM with the p and the hp refinement strategies. Particular emphasis is offered to the approximation of Poisson and Laplace problems, a priori and a posteriori error analysis, multigrid solvers, stabilization of the method and ill-conditioning of the stiffness matrix.
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