Physical Review X (Jan 2016)

Keep-Left Behavior Induced by Asymmetrically Profiled Walls

  • C. L. N. Oliveira,
  • A. P. Vieira,
  • D. Helbing,
  • J. S. Andrade, Jr.,
  • H. J. Herrmann

DOI
https://doi.org/10.1103/PhysRevX.6.011003
Journal volume & issue
Vol. 6, no. 1
p. 011003

Abstract

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We show, computationally and analytically, that asymmetrically shaped walls can organize the flow of pedestrians driven in opposite directions through a corridor. Precisely, a two-lane ordered state emerges in which people always walk on the left-hand side (or right-hand side), controlled by the system’s parameters. This effect depends on features of the channel geometry, such as the asymmetry of the profile and the channel width, as well as on the density and the drift velocity of pedestrians, and the intensity of noise. We investigate in detail the influence of these parameters on the flow and discover a crossover between ordered and disordered states. Our results show that an ordered state only appears within a limited range of drift velocities. Moreover, increasing noise may suppress such flow organization, but the flow is always sustained. This is in contrast with the “freezing by heating” phenomenon according to which pedestrians tend to clog in smooth channels for strong noise [Phys. Rev. Lett. 84, 1240 (2000)]. Therefore, the ratchetlike effect proposed here acts on the system not only to induce a “keep-left” behavior but also to prevent the freezing by heating clogging phenomenon. Besides pedestrian flow, this new phenomenon has other potential applications in microfluidics systems.