An Error Estimate for Finite Volume Methods for Multidimensional Conservation Laws
Open Access
- 1 July 1994
- journal article
- Published by JSTOR in Mathematics of Computation
- Vol. 63 (207) , 77-103
- https://doi.org/10.2307/2153563
Abstract
In this paper, an <!-- MATH ${L^\infty }({L^1})$ --> -error estimate for a class of finite volume methods for the approximation of scalar multidimensional conservation laws is obtained. These methods can be formally high-order accurate and are defined on general triangulations. The error is proven to be of order , where h represents the "size" of the mesh, via an extension of Kuznetsov approximation theory for which no estimate of the total variation and of the modulus of continuity in time are needed. The result is new even for the finite volume method constructed from monotone numerical flux functions.
Keywords
This publication has 31 references indexed in Scilit:
- Convergence of the Finite Volume Method for Multidimensional Conservation LawsSIAM Journal on Numerical Analysis, 1995
- Spectral Viscosity Approximations to Multidimensional Scalar Conservation LawsMathematics of Computation, 1993
- Convergence of Finite Difference Schemes for Conservation Laws in Several Space Dimensions: A General TheorySIAM Journal on Numerical Analysis, 1993
- On the Continuity in BV (Ω) of the L 2 -Projection into Finite Element SpacesMathematics of Computation, 1991
- Convergence of Finite Difference Schemes for Conservation Laws in Several Space Dimensions: The Corrected Antidiffusive Flux ApproachMathematics of Computation, 1991
- The Runge-Kutta Local Projection Discontinuous Galerkin Finite Element Method for Conservation Laws. IV: The Multidimensional CaseMathematics of Computation, 1990
- Quasimonotone Schemes for Scalar Conservation Laws. Part IISIAM Journal on Numerical Analysis, 1990
- Quasimonotone Schemes for Scalar Conservation Laws Part ISIAM Journal on Numerical Analysis, 1989
- Stability theorem and truncation error analysis for the Glimm scheme and for a front tracking method for flows with strong discontinuitiesCommunications on Pure and Applied Mathematics, 1989
- TVB Runge-Kutta Local Projection Discontinuous Galerkin Finite Element Method for Conservation Laws II: General FrameworkMathematics of Computation, 1989