In order to theoretically validate a dynamic model adaptation method, we consider a simple case where the model error can be thoroughly analyzed. The dynamic model adaptation consists of detecting at each time step the region where a given fine model can be replaced by a corresponding coarse model in an automatic way, without deteriorating the accuracy of the result, and to couple the two models, each being computed on its respective region. Our fine model is a 2 x 2 system which involves a small time scale; setting this time scale to 0 leads to a classical conservation law, the coarse model, with a flux which depends on the unknown and on space and time. The adaptation method provides an intermediate adapted solution which results from the coupling of both models at each time step. In order to obtain sharp and rigorous error estimates for the model adaptation procedure, a simple fine model is investigated, and smooth transitions between fine and coarse models are considered. We refine existing stability results for conservation laws with respect to the flux function which enables us to know how to balance the time step, the threshold for the domain decomposition, and the size of the transition zone. Numerical results are presented at the end and show that our estimate is optimal.

• 出版日期2016