Add to ORKGWe consider a microscopic model (a system of self-propelled particles) to study the behaviour of a large group of pedestrians walking in a corridor. Our point of interest is the effect of anisotropic interactions on the global behaviour of the crowd. The anisotropy we have in mind reflects the fact that people do not perceive (i.e. see, hear, feel or smell) their environment equally well in all directions. The dynamics of the individuals in our model follow from a system of Newton-like equations in the overdamped limit. The instantaneous velocity is modelled in such a way that it accounts for the angle under which an individual perceives another individual. We investigate the effects of this perception anisotropy by means of extensive simul...
Recently, understanding pedestrians’ behaviours in real-life phenomena have become a focal point of ...
International audienceWe present a macroscopic model for pedestrian dynamics in a corridor (or in an...
Complex bodies, as crowds of pedestrian can present Strong Velocity and Density fluctuations. The pe...
We consider a microscopic model (a system of self-propelled particles) to study the behaviour of a l...
We use the social force model to study the behaviour of two crowds of pedestrians in a bi-directiona...
We introduce a mesoscopic model of pedestrian group behaviour, in which the internal group dynamics ...
We analyse pattern formation in systems of active particles with right/left asymmetry of the interac...
The strategic behaviour of pedestrians is largely determined by how they perceive and react to neigh...
Des ensembles complexes, tels que les foules de piétons peuvent être soumis à de très fortes fluctua...
In this article, we present a microscopic-discrete mathematical model describing crowd dynamics in n...
As the population of cities and the frequency of mass gatherings increase, it is becoming critical t...
Understanding pedestrian walking characteristics is important to plan and design mass gathering plac...
The relevance of social psychology for the properties of pedestrian streams is still discussed contr...
Understanding pedestrian walking characteristics is important for the planning and design of mass ga...
We extend a well-studied ODE model for collective behaviour by considering anisotropic interactions ...
Recently, understanding pedestrians’ behaviours in real-life phenomena have become a focal point of ...
International audienceWe present a macroscopic model for pedestrian dynamics in a corridor (or in an...
Complex bodies, as crowds of pedestrian can present Strong Velocity and Density fluctuations. The pe...
We consider a microscopic model (a system of self-propelled particles) to study the behaviour of a l...
We use the social force model to study the behaviour of two crowds of pedestrians in a bi-directiona...
We introduce a mesoscopic model of pedestrian group behaviour, in which the internal group dynamics ...
We analyse pattern formation in systems of active particles with right/left asymmetry of the interac...
The strategic behaviour of pedestrians is largely determined by how they perceive and react to neigh...
Des ensembles complexes, tels que les foules de piétons peuvent être soumis à de très fortes fluctua...
In this article, we present a microscopic-discrete mathematical model describing crowd dynamics in n...
As the population of cities and the frequency of mass gatherings increase, it is becoming critical t...
Understanding pedestrian walking characteristics is important to plan and design mass gathering plac...
The relevance of social psychology for the properties of pedestrian streams is still discussed contr...
Understanding pedestrian walking characteristics is important for the planning and design of mass ga...
We extend a well-studied ODE model for collective behaviour by considering anisotropic interactions ...
Recently, understanding pedestrians’ behaviours in real-life phenomena have become a focal point of ...
International audienceWe present a macroscopic model for pedestrian dynamics in a corridor (or in an...
Complex bodies, as crowds of pedestrian can present Strong Velocity and Density fluctuations. The pe...