This paper deals with the mathematical modelling of crowd dynamics within the framework of continuum mechanics. The method uses the mass conservation equation closed by phenomenological models linking the local velocity to density and density gradients. The closures take into account movement in more than one space dimension, presence of obstacles, pedestrian strategies,and modelling of panic conditions. Numerical simulations of theinitial-boundary value problems visualize the ability of themodels to predict several interesting phenomena related to thecomplex system under consideration.

First Order Macroscopic Modelling of Human Crowd Dynamics

COSCIA, Vincenzo;
2008

Abstract

This paper deals with the mathematical modelling of crowd dynamics within the framework of continuum mechanics. The method uses the mass conservation equation closed by phenomenological models linking the local velocity to density and density gradients. The closures take into account movement in more than one space dimension, presence of obstacles, pedestrian strategies,and modelling of panic conditions. Numerical simulations of theinitial-boundary value problems visualize the ability of themodels to predict several interesting phenomena related to thecomplex system under consideration.
2008
Coscia, Vincenzo; C., Canavesio
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/524320
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