Add to ORKGWe present an investigation of a driven random-walk model which is used to simulate pedestrian motion. We analyse the dependency of the global density and the mean velocity on the boundary density for open and periodic boundary conditions. Global and local fundamental diagrams are presented for a random sequential and parallel update. In addition, an analytical solu-tion for the relation between mean velocity and density is presented, too
We develop a microscopic pedestrian-simulation model in which pedestrian positions are updated at di...
Pedestrian crowds often have been modeled as many-particle system including microscopic multi-agent ...
International audienceWhile walking through a crowd, a pedestrian experiences a large number of inte...
This paper deals with the mathematical modelling of crowd dynamics within the framework of continu...
A mesoscopic pedestrian model is proposed, considering pedestrians as individuals and describing the...
This thesis is concerned with microscopic and macroscopic models for pedes- trian crowds. In the fi...
We present a strategy capable of describing basic features of the dynamics of crowds. The behaviour ...
As the population of cities and the frequency of mass gatherings increase, it is becoming critical t...
In this contribution, we review the state of the art of the interplay between empirical and theoreti...
In recent years, modelling crowd and evacuation dynamics has become very important, with in-creasing...
This book presents mathematical models and numerical simulations of crowd dynamics. The core topic i...
This dissertation shows a kinetic approach for pedestrian dynamics. First, we model the evacuation o...
This paper presents a new approach to the behavioral dynamics of human crowds. Macroscopic first ord...
This paper presents a new approach to the behavioral dynamics of human crowds. Macroscopic first ord...
While walking through a crowd, a pedestrian experiences a large number of interactions with his neig...
We develop a microscopic pedestrian-simulation model in which pedestrian positions are updated at di...
Pedestrian crowds often have been modeled as many-particle system including microscopic multi-agent ...
International audienceWhile walking through a crowd, a pedestrian experiences a large number of inte...
This paper deals with the mathematical modelling of crowd dynamics within the framework of continu...
A mesoscopic pedestrian model is proposed, considering pedestrians as individuals and describing the...
This thesis is concerned with microscopic and macroscopic models for pedes- trian crowds. In the fi...
We present a strategy capable of describing basic features of the dynamics of crowds. The behaviour ...
As the population of cities and the frequency of mass gatherings increase, it is becoming critical t...
In this contribution, we review the state of the art of the interplay between empirical and theoreti...
In recent years, modelling crowd and evacuation dynamics has become very important, with in-creasing...
This book presents mathematical models and numerical simulations of crowd dynamics. The core topic i...
This dissertation shows a kinetic approach for pedestrian dynamics. First, we model the evacuation o...
This paper presents a new approach to the behavioral dynamics of human crowds. Macroscopic first ord...
This paper presents a new approach to the behavioral dynamics of human crowds. Macroscopic first ord...
While walking through a crowd, a pedestrian experiences a large number of interactions with his neig...
We develop a microscopic pedestrian-simulation model in which pedestrian positions are updated at di...
Pedestrian crowds often have been modeled as many-particle system including microscopic multi-agent ...
International audienceWhile walking through a crowd, a pedestrian experiences a large number of inte...