1. A Hybridizable Discontinuous Galerkin Method for the $p$-Laplacian
- Author
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Bernardo Cockburn and Jiguang Shen
- Subjects
Degree (graph theory) ,Applied Mathematics ,Mathematical analysis ,Order (ring theory) ,010103 numerical & computational mathematics ,01 natural sciences ,010101 applied mathematics ,Computational Mathematics ,Nonlinear system ,Rate of convergence ,Discontinuous Galerkin method ,Convergence (routing) ,p-Laplacian ,Applied mathematics ,Nabla symbol ,0101 mathematics ,Mathematics - Abstract
We propose the first hybridizable discontinuous Galerkin method for the $p$-Laplacian equation. When using polynomials of degree $k \geq 0$ for the approximation spaces of $u$, $\boldsymbol{\nabla} u$, and $|\boldsymbol{\nabla} u|^{p-2}\boldsymbol{\nabla} u$, the method exhibits optimal $k+1$ order of convergence for all variables in $L^1$- and $L^p$-norms in our numerical experiments. For $k \geq 1$, an elementwise computation allows us to obtain a new approximation $u_h^*$ that converges to $u$ with order $k+2$. We rewrite the scheme as discrete minimization problems in order to solve them with nonlinear minimization algorithms. The unknown of the first problem is the approximation of $u$ on the skeleton of the mesh but requires solving nonlinear local problems. The second problem has the approximation on the elements as an additional unknown but it only requires solving linear local problems. We present numerical results displaying the convergence properties of the methods, demonstrating the utility of...
- Published
- 2016
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