Add to ORKGInternational audienceDense granular flows through constrictions, as well as competitive pedestrian evacuations, are hindered by a propensity to form clogs. We usesimulations of model pedestrians and experiments with granular disks to explore an original strategy to speed up these flows, which consists in including contact-averse entities in the assembly. On the basis of a minimal cellular automaton and a continuous agent-based model for pedestrian evacuation dynamics, we find that the inclusion of polite pedestrians amid a given competitive crowd fails to reduce the evacuation time when the constriction (the doorway) is acceptably large. This is not surprising, because adding agents makes the crowd larger. In contrast, when the door is so ...
Egalement paru dans la série des Cahiers de la Chaire Finance et Développement Durable, n°40In this ...
We present a numerical framework to simulate pedestrian dynamics in highly competitive conditions by...
This dissertation shows a kinetic approach for pedestrian dynamics. First, we model the evacuation o...
Dense granular flows through constrictions, as well as competitivepedestrian evacuations, are hinder...
9 pagesInternational audienceWe study the influence of selfish vs. polite behaviours on the dynamics...
Complex bodies, as crowds of pedestrian can present Strong Velocity and Density fluctuations. The pe...
We study the dynamics of pedestrian flows through a narrow doorway by means of controlled experiment...
Abstract We study the motion of pedestrians through obscure corridors where the lack of visibility h...
When a sizable number of people evacuate a room, if the door is not large enough, an accumulation of...
With self-driven particle models, like the social force model, most of the physics of moving crowds ...
A mathematical model of the evacuation of a crowd from bounded domains is derived by a hybrid approa...
We report a thorough analysis of the intermittent flow of pedestrians through a narrow door. The obs...
The placement of obstacles in front of doors is believed to be an effective strategy to increase the...
Pedestrian movements in crowd motion can be perceived in terms of agents who basically exhibit patie...
We study the evacuation of a set of 200 pedestrians from a room under a state of panic. The dynamics...
Egalement paru dans la série des Cahiers de la Chaire Finance et Développement Durable, n°40In this ...
We present a numerical framework to simulate pedestrian dynamics in highly competitive conditions by...
This dissertation shows a kinetic approach for pedestrian dynamics. First, we model the evacuation o...
Dense granular flows through constrictions, as well as competitivepedestrian evacuations, are hinder...
9 pagesInternational audienceWe study the influence of selfish vs. polite behaviours on the dynamics...
Complex bodies, as crowds of pedestrian can present Strong Velocity and Density fluctuations. The pe...
We study the dynamics of pedestrian flows through a narrow doorway by means of controlled experiment...
Abstract We study the motion of pedestrians through obscure corridors where the lack of visibility h...
When a sizable number of people evacuate a room, if the door is not large enough, an accumulation of...
With self-driven particle models, like the social force model, most of the physics of moving crowds ...
A mathematical model of the evacuation of a crowd from bounded domains is derived by a hybrid approa...
We report a thorough analysis of the intermittent flow of pedestrians through a narrow door. The obs...
The placement of obstacles in front of doors is believed to be an effective strategy to increase the...
Pedestrian movements in crowd motion can be perceived in terms of agents who basically exhibit patie...
We study the evacuation of a set of 200 pedestrians from a room under a state of panic. The dynamics...
Egalement paru dans la série des Cahiers de la Chaire Finance et Développement Durable, n°40In this ...
We present a numerical framework to simulate pedestrian dynamics in highly competitive conditions by...
This dissertation shows a kinetic approach for pedestrian dynamics. First, we model the evacuation o...