Timestepping Schemes Based On Time Discontinuous Galerkin Methods
Résumé
The contribution deals with timestepping schemes for nonsmooth dynamical systems. So far, these schemes are locally of order one, both in smooth and nonsmooth segments. This is inefficient for applications with few events like circuit breakers. To consistently improve the behavior during smooth episodes, the traditional schemes are being embedded in time discontinuous Galerkin methods. After establishing the correct mathematical setting, a Petrov-Galerkin distributional differential inclusion is outlined. The bouncing ball example illustrates the capabilities.