Simulating pedestrian flow through individual models is a powerful method to uncover mechanisms underlying collective behaviors. The heuristic force-based model is a promising approach, but it has problems both in theory and in application. Therefore, we propose a modified heuristic force-based model that considers contact force information and static friction in this paper. We propose a heuristic to take contact forces simultaneously as the information that affects self-driven forces, which has not been studied before. We express self-driven forces through static friction, because motion of pedestrians is actually dependent on the static friction between pedestrians and ground, which has not been considered before. Our model successfully a...
Following the paradigm set by attraction-repulsion-alignment schemes, a myriad of individual-based m...
The increased diffusion of service robots operating in tight collaboration with humans has renewed t...
Human motion models are finding an increasing number of novel applications in many different fields,...
Force-based models describe the interactions of pedestrians in terms of physical and social forces. ...
This dissertation investigates force-based modeling of pedestrian dynamics. Having the quantitative ...
For the modelling of pedestrian dynamics we treat persons as self-driven objects moving in a continu...
The modeling of human behavior is a significant approach to reproduce realistic pedestrian...
Force-based models describe pedestrian dynamics in analogy to classical mechanics by a system of sec...
A model of crowd motion that considers each pedestrian as a Newtonian particle subject to both physi...
Walking habits can affect the self-organizing movement in pedestrian flow. In China, pedestrians pre...
International audienceThe non-smooth view of Michel Frfiemond has already been proven successful in ...
A model of crowd motion that considers each pedestrian as a Newtonian particle subject to both physi...
Pedestrian movements can be modeled at different degrees of detail. While flux models (Predeshensky/...
A crowd of pedestrians is a complex system that exhibits a rich variety of self-organized collective...
The fundamental diagram of pedestrian dynamics gives the relation between the density and the flow w...
Following the paradigm set by attraction-repulsion-alignment schemes, a myriad of individual-based m...
The increased diffusion of service robots operating in tight collaboration with humans has renewed t...
Human motion models are finding an increasing number of novel applications in many different fields,...
Force-based models describe the interactions of pedestrians in terms of physical and social forces. ...
This dissertation investigates force-based modeling of pedestrian dynamics. Having the quantitative ...
For the modelling of pedestrian dynamics we treat persons as self-driven objects moving in a continu...
The modeling of human behavior is a significant approach to reproduce realistic pedestrian...
Force-based models describe pedestrian dynamics in analogy to classical mechanics by a system of sec...
A model of crowd motion that considers each pedestrian as a Newtonian particle subject to both physi...
Walking habits can affect the self-organizing movement in pedestrian flow. In China, pedestrians pre...
International audienceThe non-smooth view of Michel Frfiemond has already been proven successful in ...
A model of crowd motion that considers each pedestrian as a Newtonian particle subject to both physi...
Pedestrian movements can be modeled at different degrees of detail. While flux models (Predeshensky/...
A crowd of pedestrians is a complex system that exhibits a rich variety of self-organized collective...
The fundamental diagram of pedestrian dynamics gives the relation between the density and the flow w...
Following the paradigm set by attraction-repulsion-alignment schemes, a myriad of individual-based m...
The increased diffusion of service robots operating in tight collaboration with humans has renewed t...
Human motion models are finding an increasing number of novel applications in many different fields,...