Analysis of emergent patterns in crossing flows of pedestrians reveals an invariant of 'stripe' formation in human data - Archive ouverte HAL
Article Dans Une Revue PLoS Computational Biology Année : 2022

Analysis of emergent patterns in crossing flows of pedestrians reveals an invariant of 'stripe' formation in human data

Résumé

When two streams of pedestrians cross at an angle, striped patterns spontaneously emerge as a result of local pedestrian interactions. This clear case of self-organized pattern formation remains to be elucidated. In counterflows, with a crossing angle of 180{\deg}, alternating lanes of traffic are commonly observed moving in opposite directions, whereas in crossing flows at an angle of 90{\deg} diagonal stripes have been reported. Naka (1977) hypothesized that stripe orientation is perpendicular to the bisector of the crossing angle. However, studies of crossing flows at acute and obtuse angles remain underdeveloped. We tested the bisector hypothesis in experiments on small groups (18-19 participants each) crossing at seven angles (30{\deg} intervals), and analyzed the geometric properties of stripes. We present two novel computational methods for analyzing striped patterns in pedestrian data: (i) an edge-cutting algorithm, which detects the dynamic formation of stripes and allows us to measure local properties of individual stripes; and (ii) a pattern-matching technique, based on the Gabor function, which allows us to estimate global properties (orientation and wavelength) of the striped pattern at a time T. We find an invariant property: stripes in the two groups are parallel and perpendicular to the bisector at all crossing angles. In contrast, other properties depend on the crossing angle: stripe spacing (wavelength), stripe size (number of pedestrians per stripe), and crossing time all decrease as the crossing angle increases from 30{\deg} to 180{\deg}, whereas the number of stripes increases with crossing angle. We also observe that the width of individual stripes is dynamically squeezed as the two groups cross each other. The findings thus support the bisector hypothesis at a wide range of crossing angles, although the theoretical reasons for this invariant remain unclear.
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Dates et versions

hal-03454440 , version 1 (12-09-2022)

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Pratik Mullick, Sylvain Fontaine, Cécile Appert-Rolland, Anne-Hélène Olivier, William H. Warren, et al.. Analysis of emergent patterns in crossing flows of pedestrians reveals an invariant of 'stripe' formation in human data. PLoS Computational Biology, 2022, 18 (6), pp.e1010210. ⟨10.1371/journal.pcbi.1010210⟩. ⟨hal-03454440⟩
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