Add to ORKGWhen a sizable number of people evacuate a room, if the door is not large enough, an accumulation of pedestrians in front of the exit may take place. This is the cause of emerging collective phenomena where the density is believed to be the key variable determining the pedestrian dynamics. Here, we show that when sustained contact among the individuals exists, density is not enough to describe the evacuation, and propose that at least another variable -such as the kinetic stress- is required. We recorded evacuation drills with different degrees of competitiveness where the individuals are allowed to moderately push each other in their way out. We obtain the density, velocity and kinetic stress fields over time, showing that competitiveness ...
Abstract We study the motion of pedestrians through obscure corridors where the lack of visibility h...
AbstractThe Faster-Is-Slower effect (Helbing et al (2000)) is an important instance of self-organize...
A mathematical model of the evacuation of a crowd from bounded domains is derived by a hybrid approa...
When a sizable number of people evacuate a room, if the door is not large enough, an accumulation of...
Although some experimental evidence showed that an obstacle placed in front of a door allows making ...
We studied the room evacuation problem within the context of the Social Force Model. We focused on a...
We study the dynamics of pedestrian flows through a narrow doorway by means of controlled experiment...
We study the evacuation of a set of 200 pedestrians from a room under a state of panic. The dynamics...
In the present work, we studied the room evacuation problem using the social force model introduced ...
The Social Force Model (SFM) is a suitable model for describing crowd behaviors under emotional stre...
We report a thorough analysis of the intermittent flow of pedestrians through a narrow door. The obs...
© 2018 Dr Zahra ShahhoseiniModelling pedestrian crowd movement and behaviour has emerged in the rece...
The "faster-is-slower" effect arises when crowded people push each other to escape through an exit d...
Clogging raises as the principal phenomenon during many evacuation processes of pedestrians in an em...
With self-driven particle models, like the social force model, most of the physics of moving crowds ...
Abstract We study the motion of pedestrians through obscure corridors where the lack of visibility h...
AbstractThe Faster-Is-Slower effect (Helbing et al (2000)) is an important instance of self-organize...
A mathematical model of the evacuation of a crowd from bounded domains is derived by a hybrid approa...
When a sizable number of people evacuate a room, if the door is not large enough, an accumulation of...
Although some experimental evidence showed that an obstacle placed in front of a door allows making ...
We studied the room evacuation problem within the context of the Social Force Model. We focused on a...
We study the dynamics of pedestrian flows through a narrow doorway by means of controlled experiment...
We study the evacuation of a set of 200 pedestrians from a room under a state of panic. The dynamics...
In the present work, we studied the room evacuation problem using the social force model introduced ...
The Social Force Model (SFM) is a suitable model for describing crowd behaviors under emotional stre...
We report a thorough analysis of the intermittent flow of pedestrians through a narrow door. The obs...
© 2018 Dr Zahra ShahhoseiniModelling pedestrian crowd movement and behaviour has emerged in the rece...
The "faster-is-slower" effect arises when crowded people push each other to escape through an exit d...
Clogging raises as the principal phenomenon during many evacuation processes of pedestrians in an em...
With self-driven particle models, like the social force model, most of the physics of moving crowds ...
Abstract We study the motion of pedestrians through obscure corridors where the lack of visibility h...
AbstractThe Faster-Is-Slower effect (Helbing et al (2000)) is an important instance of self-organize...
A mathematical model of the evacuation of a crowd from bounded domains is derived by a hybrid approa...