An improved version of the Hughes model for pedestrian flow-Reference-Cited by-同舟云学术

An improved version of the Hughes model for pedestrian flow

Published:2016-02-16 Issue:04 Volume:26 Page:671-697
ISSN:0218-2025
Container-title:Mathematical Models and Methods in Applied Sciences
language:en
Short-container-title:Math. Models Methods Appl. Sci.

Author:

Carrillo Jose A.¹,Martin Stephan¹²,Wolfram Marie-Therese³

Affiliation:

1. Department of Mathematics, Imperial College London, London SW7 2AZ, UK

2. Department of Mathematics RWTH Aachen University, 52074 Aachen, Germany

3. Radon Institute for Computational and Applied Mathematics, Austrian Academy of Sciences, Altenberger Strasse 69, 4040 Linz, Austria

Abstract

Roger Hughes proposed a macroscopic model for pedestrian dynamics, in which individuals seek to minimize their travel time but try to avoid regions of high density. One of the basic assumptions is that the overall density of the crowd is known to every agent. In this paper we present a modification of the Hughes model to include local effects, namely limited vision, and a conviction towards decision making. The modified velocity field enables smooth turning and temporary waiting behavior. We discuss the modeling in the micro- and macroscopic setting as well as the efficient numerical simulation of either description. Finally we illustrate the model with various numerical experiments and evaluate the behavior with respect to the evacuation time and the overall performance.

Publisher

World Scientific Pub Co Pte Lt

Subject

Applied Mathematics,Modeling and Simulation

Link

https://www.worldscientific.com/doi/pdf/10.1142/S0218202516500147

Reference39 articles.

1. The one-dimensional Hughes model for pedestrian flow: Riemann—type solutions

2. Existence results for Hughes' model for pedestrian flows

3. On the Numerical Integration of Scalar Nonlocal Conservation Laws

4. Two-way multi-lane traffic model for pedestrians in corridors

5. Optimal Control and Viscosity Solutions of Hamilton-Jacobi-Bellman Equations

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