Citation

Kuang H, Li X, Song T, Dai S. Phys. Rev. E Stat. Nonlin. Soft Matter Phys. 2008; 78(6-2): 066117.

Affiliation

Shanghai Institute of Applied Mathematics and Mechanics, Shanghai University, Shanghai, 200072, China and College of Physics and Electronic Engineering, Guangxi Normal University, Guilin 541004, China.

Copyright

(Copyright © 2008, American Physical Society, Publisher American Institute of Physics)

DOI

unavailable

PMID

19256915

Abstract

The modeling of human behavior is an important approach to reproduce realistic phenomena for pedestrian flow. In this paper, an extended lattice gas model is proposed to simulate pedestrian counter flow under the open boundary conditions by considering the human subconscious behavior and different maximum velocities. The simulation results show that the presented model can capture some essential features of pedestrian counter flows, such as lane formation, segregation effect, and phase separation at higher densities. In particular, an interesting feature that the faster walkers overtake the slower ones and then form a narrow-sparse walkway near the central partition line is discovered. The phase diagram comparison and analysis show that the subconscious behavior plays a key role in reducing the occurrence of jam cluster. The effects of the symmetrical and asymmetrical injection rate, different partition lines, and different combinations of maximum velocities on pedestrian flow are investigated. An important conclusion is that it is needless to separate faster and slower pedestrians in the same direction by a partition line. Furthermore, the increase of the number of faster walkers does not always benefit the counter flow in all situations. It depends on the magnitude and asymmetry of injection rate. And at larger maximum velocity, the obtained critical transition point corresponding to the maximum flow rate of the fundamental diagram is in good agreement with the empirical results.

Language: en