An analysis of the practical DPG method

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

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Detail(s)

Original languageEnglish
Pages (from-to)537-552
Journal / PublicationMathematics of Computation
Volume83
Issue number286
Online published31 May 2013
Publication statusPublished - Mar 2014

Abstract

Abstract. We give a complete error analysis of the Discontinuous Petrov Galerkin (DPG) method, accounting for all the approximations made in its practical implementation. Specifically, we consider the DPG method that uses a trial space consisting of polynomials of degree p on each mesh element. Earlier works showed that there is a "trial-to-test" operator T, which when applied to the trial space, defines a test space that guarantees stability. In DPG formulations, this operator T is local: it can be applied element-by-element. However, an infinite dimensional problem on each mesh element needed to be solved to apply T. In practical computations, T is approximated using polynomials of some degree r ≥ p on each mesh element. We show that this approximation maintains optimal convergence rates, provided that r > p+N, where N is the space dimension (two or more), for the Laplace equation. We also prove a similar result for the DPG method for linear elasticity. Remarks on the conditioning of the stiffness matrix in DPG methods are also included. © 2013 American Mathematical Society.

Research Area(s)

  • Discontinuous galerkin, DPG method, Petrov-Galerkin, Ultraweak formulation

Citation Format(s)

An analysis of the practical DPG method. / Gopalakrishnan, J.; Qiu, W.
In: Mathematics of Computation, Vol. 83, No. 286, 03.2014, p. 537-552.

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review