Convergence of discontinuous Galerkin schemes for front propagation with obstacles
Résumé
We study semi-Lagrangian discontinuous Galerkin (SLDG) and
Runge-Kutta discontinuous Galerkin (RKDG) schemes for some
front propagation problems in the presence of an obstacle term, modeled by a nonlinear
Hamilton-Jacobi equation of the form $\min(u_t + c u_x, u - g(x))=0$,
in one space dimension.
New convergence results and error bounds are obtained for Lipschitz regular data.
These ``low regularity" assumptions are the natural ones for the solutions of the studied equations.
Numerical tests are given to illustrate the behavior of our schemes.
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