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March 3, 2023

Stick to your lane: Hidden order in chaotic crowds

by University of Bath

Stick to your lane: Hidden order in chaotic crowds Credit: University
of Bath

Have you ever wondered how pedestrians 'know' to fall into lanes when
they are moving through a crowd, without the matter being discussed
or even given conscious thought?

A new theory developed by mathematicians at the University of Bath
led by Professor Tim Rogers explains this phenomenon, and is able to
predict when lanes will be curved as well as straight. The theory can
even describe the tilt of a wonky lane when people are in the habit
of passing on one side rather than the other (for instance, in a
situation where they are often reminded to 'pass on the right').

This mathematical analysis unifies conflicting viewpoints on the
origin of lane formation, and it reveals a new class of structures
that in daily life may go unnoticed. The discovery, reported in
Science, constitutes a major advance in the interdisciplinary science
of 'active matter'--the study of group behaviors in interacting
populations ranging in scale from bacteria to herds of animals.

Tested in arenas

To test their theory, the researchers asked a group of volunteers to
walk across an experimental arena that mimicked different layouts,
with changes to entrance and exit gates.

One arena was set up in the style of King's Cross Station in London.
When the researchers looked at the video footage from the experiment,
they observed mathematical patterns taking shape in real life.

Professor Rogers said, "At a glance, a crowd of pedestrians
attempting to pass through two gates might seem disorderly but when
you look more closely, you see the hidden structure. Depending on the
layout of the space, you may observe either the classic straight
lanes or more complex curved patterns such as ellipses, parabolas,
and hyperbolas."

Lane formation

The single-file processions formed at busy zebra crossings are only
one example of lane formation, and this study is likely to have
implications for a range of scientific disciplines, particularly in
the fields of physics and biology. Similar structures can also be
formed by inanimate molecules, such as charged particles or
organelles in a cell.

Until now, scientists have given several different explanations for
why human crowds and other active systems naturally self-organize
into lanes, but none of these theories have been verified. The Bath
team used a new analytical approach, inspired by Albert Einstein's
theory of Brownian motion, which makes predictions that can be
tested.
[INS::INS]

Encouraged by the way their theory agreed with the numerical
simulations of colliding particles, they then teamed up with
Professor Bogdan Bacik--an experimentalist from the Academy of
Physical Education in Katowice, Poland--and ran a series of
experiments (such as the one modeled on King's Cross) using human
crowds.

Lead author Dr. Karol Bacik said, "Lane formation doesn't require
conscious thought--the participants of the experiment were not aware
that they had arranged themselves into well-defined mathematical
curves."

"The order emerges spontaneously when two groups with different
objectives cross paths in a crowded space and try to avoid crashing
into each other. The cumulative effect of lots of individual
decisions inadvertently results in lanes forming."

The researchers also tested the effects of externally imposed traffic
rules--namely, they instructed the participants to pass others on the
right. In agreement with the theoretical prediction, adding this rule
changed the lane structure.

"When pedestrians have a preference for right turns, the lanes end up
tilting and this introduces frustration that slows people down," said
Dr. Bacik.

"What we've developed is a neat mathematical theory that forecasts
the propensity for lane formation in any given system," said
Professor Rogers. "We now know that much more structure exists than
previously thought."

More information: Science (2023), DOI: 10.1126/science.add8091.
www.science.org/doi/10.1126/science.add8091

Journal information: Science  

Provided by University of Bath  

Citation: Stick to your lane: Hidden order in chaotic crowds (2023,
March 3) retrieved 4 March 2023 from https://phys.org/news/
2023-03-lane-hidden-chaotic-crowds.html
This document is subject to copyright. Apart from any fair dealing
for the purpose of private study or research, no part may be
reproduced without the written permission. The content is provided
for information purposes only.
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