Diagonal patterns and chevron effect in intersecting traffic flows
Abstract
We study a lattice model of two perpendicular intersecting flows of pedestrians represented by hard core particles of two types, eastbound (`') and northbound (`'). Each flow takes place on a strip of width so that the intersection is an square lattice. In experiment and simulation there occurs on this square spontaneous formation of a diagonal pattern of alternating and particles. We show that this pattern formation may be understood in terms of a linear instability of the corresponding mean field equations. A refined investigation reveals that the pattern actually consists of chevrons rather than straight diagonals. We explain this effect as the consequence of the existence of a nonlinear mode sustained by the interaction between the two types of particles.
Keywords
Cite
@article{arxiv.1209.1529,
title = {Diagonal patterns and chevron effect in intersecting traffic flows},
author = {Julien Cividini and Cecile Appert-Rolland and Hendrik-Jan Hilhorst},
journal= {arXiv preprint arXiv:1209.1529},
year = {2015}
}