Pierre Degond, Piotr Minakowski, Laurent Navoret, Ewelina Zatorska
Published 2017-05-02Version 1
We are interested in the numerical simulations of the Euler system with variable congestion encoded by a singular pressure. This model describes for instance the macroscopic motion of a crowd with individual congestion preferences. We propose an asymptotic preserving (AP) scheme based on a conservative formulation of the system in terms of density, momentum and density fraction. A second order accuracy version of the scheme is also presented. We validate the scheme on one-dimensional test-cases and extended here to higher order accuracy. We finally carry out two dimensional numerical simulations and show that the model exhibit typical crowd dynamics.
Numerical simulations of the Euler system with congestion constraint
Approximating viscosity solutions of the Euler system
A posteriori estimates for errors of functionals on finite volume approximations to solutions of elliptic boundary value problems
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