In this paper, we introduce a discrete time-finite state model for pedestrian flow on a graph in the spirit of the Hughes dynamic continuum model. The pedestrians, represented by a density function, move on the graph choosing a route to minimize the instantaneous travel cost to the destination. The density is governed by a conservation law whereas the minimization principle is described by a graph eikonal equation. We show that the discrete model is well-posed and the numerical examples reported confirm the validity of the proposed model and its applicability to describe real situation
Some models of flow on a network are discussed. Assuming a macroscopic approach on each arc of the ...
The development of a bi-directional pedestrian-flow model based on the reactive dynamic user equilib...
We consider a generalized version of Hughes’ macroscopic model for crowd motion in the one-dimension...
In this paper, we introduce a discrete time-finite state model for pedestrian flow on a graph in the...
In this paper, we revisit Hughes' dynamic continuum model for pedestrian flow in a two-dimensional w...
Roger Hughes proposed a macroscopic model for pedestrian dynamics, in which individuals seek to mini...
In this paper, we systematically apply the mathematical structures by time-evolving measures develop...
Abstract In this paper, a reactive dynamic user equilibrium model is extended to simu-late two group...
We discuss the control of a human crowd whose dynamics is governed by a regularized version of Hughe...
In this paper we present a Semi-Lagrangian scheme for a regularized version of the Hughes model for ...
We consider a generalized version of Hughes' macroscopic model for crowd motion in the one-dimension...
International audienceIn this paper, we present a semi-Lagrangian scheme for a regularized version o...
International audienceWe provide an overview of the results on Hughes' model for pedestrian movement...
International audienceWe provide an overview of the results on Hughes' model for pedestrian movement...
In this paper, a reactive dynamic user equilibrium model is extended to simulate two groups of pedes...
Some models of flow on a network are discussed. Assuming a macroscopic approach on each arc of the ...
The development of a bi-directional pedestrian-flow model based on the reactive dynamic user equilib...
We consider a generalized version of Hughes’ macroscopic model for crowd motion in the one-dimension...
In this paper, we introduce a discrete time-finite state model for pedestrian flow on a graph in the...
In this paper, we revisit Hughes' dynamic continuum model for pedestrian flow in a two-dimensional w...
Roger Hughes proposed a macroscopic model for pedestrian dynamics, in which individuals seek to mini...
In this paper, we systematically apply the mathematical structures by time-evolving measures develop...
Abstract In this paper, a reactive dynamic user equilibrium model is extended to simu-late two group...
We discuss the control of a human crowd whose dynamics is governed by a regularized version of Hughe...
In this paper we present a Semi-Lagrangian scheme for a regularized version of the Hughes model for ...
We consider a generalized version of Hughes' macroscopic model for crowd motion in the one-dimension...
International audienceIn this paper, we present a semi-Lagrangian scheme for a regularized version o...
International audienceWe provide an overview of the results on Hughes' model for pedestrian movement...
International audienceWe provide an overview of the results on Hughes' model for pedestrian movement...
In this paper, a reactive dynamic user equilibrium model is extended to simulate two groups of pedes...
Some models of flow on a network are discussed. Assuming a macroscopic approach on each arc of the ...
The development of a bi-directional pedestrian-flow model based on the reactive dynamic user equilib...
We consider a generalized version of Hughes’ macroscopic model for crowd motion in the one-dimension...