Pedestrian dynamics in single-file movement of crowd with different age compositions

An aging population is bringing new challenges to the management of escape routes and facility design in many countries. This paper investigates pedestrian movement properties of crowd with different age compositions. Three pedestrian groups are considered: young student group, old people group, and...

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Veröffentlicht in:	Physical review. E 2016-07, Vol.94 (1-1), p.012312-012312, Article 012312
Hauptverfasser:	Cao, Shuchao, Zhang, Jun, Salden, Daniel, Ma, Jian, Shi, Chang'an, Zhang, Ruifang
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Sprache:	eng
Schlagworte:	Age Factors Humans Models, Theoretical Movement Pedestrians Population Density
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creator	Cao, Shuchao Zhang, Jun Salden, Daniel Ma, Jian Shi, Chang'an Zhang, Ruifang
description	An aging population is bringing new challenges to the management of escape routes and facility design in many countries. This paper investigates pedestrian movement properties of crowd with different age compositions. Three pedestrian groups are considered: young student group, old people group, and mixed group. It is found that traffic jams occur more frequently in mixed group due to the great differences of mobilities and self-adaptive abilities among pedestrians. The jams propagate backward with a velocity 0.4m/s for global density ρ_{g}≈1.75m^{-1} and 0.3m/s for ρ_{g}>2.3m^{-1}. The fundamental diagrams of the three groups are obviously different from each other and cannot be unified into one diagram by direct nondimensionalization. Unlike previous studies, three linear regimes in mixed group but only two regimes in young student group are observed in the headway-velocity relation, which is also verified in the fundamental diagram. Different ages and mobilities of pedestrians in a crowd cause the heterogeneity of system and influence the properties of pedestrian dynamics significantly. It indicates that the density is not the only factor leading to jams in pedestrian traffic. The composition of crowd has to be considered in understanding pedestrian dynamics and facility design.
doi_str_mv	10.1103/PhysRevE.94.012312
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title	Pedestrian dynamics in single-file movement of crowd with different age compositions
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