Discrete kinetic theory for 2D modeling of a moving crowd: application to the evacuation of a non-connected bounded domain
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Publication:1732392
DOI10.1016/J.CAMWA.2017.10.023zbMath1409.82013OpenAlexW2770168019MaRDI QIDQ1732392
Abdelghani Elmoussaoui, Pierre Argoul, Mohammed El Rhabi, Abdelilah Hakim
Publication date: 25 March 2019
Published in: Computers \& Mathematics with Applications (Search for Journal in Brave)
Full work available at URL: https://hal-enpc.archives-ouvertes.fr/hal-01811760/file/el_moussaoui_Kinetic_paper_03_10_17.pdf
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Cites Work
- Global solution to the Cauchy problem for discrete velocity models of vehicular traffic
- Higher order operator splitting methods via Zassenhaus product formula: theory and applications
- A kinetic theory description of liquid menisci at the microscale
- On multiscale models of Pedestrian crowds from mesoscopic to macroscopic
- An upwind scheme for a nonlinear hyperbolic integro-differential equation with integral boundary condition
- Behavioral crowds: modeling and Monte Carlo simulations toward validation
- An upwind scheme for a nonlinear model in age-structured population dynamics
- On the modeling of crowd dynamics: looking at the beautiful shapes of swarms
- Multiscale modeling of pedestrian dynamics
- Modeling complex living systems. A kinetic theory and stochastic game approach.
- Stochastic evolutionary differential games toward a systems theory of behavioral social dynamics
- From the Microscale to Collective Crowd Dynamics
- TOWARDS THE MODELING OF VEHICULAR TRAFFIC AS A COMPLEX SYSTEM: A KINETIC THEORY APPROACH
- Toward a mathematical theory of behavioral-social dynamics for pedestrian crowds
- A kinetic theory approach to the dynamics of crowd evacuation from bounded domains
- Direct methods for solving the Boltzmann equation and study of nonequilibrium flows
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