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Scale-free Resilience of Real Traffic Jams

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arxiv 1804.11047 v3 pith:75QGJL7H submitted 2018-04-30 physics.soc-ph nlin.AO

Scale-free Resilience of Real Traffic Jams

classification physics.soc-ph nlin.AO
keywords resiliencetrafficdifferentcitydisturbancesengineeringexponentsproperty
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The concept of resilience can be realized in natural and engineering systems, representing the ability of system to adapt and recover from various disturbances. Although resilience is a critical property needed for understanding and managing the risks and collapses of transportation system, an accepted and useful definition of resilience for urban traffic as well as its statistical property under perturbations is still missing. Here we define city traffic resilience based on the spatio-temporal clusters of congestion in real traffic, and find that the resilience follows a scale free distribution in two-dimensional city road networks and one-dimensional highways, with different exponents, but similar exponents in different days and different cities. The traffic resilience is also revealed to have a novel scaling relation between the cluster size of the spatio-temporal jam and its recovery duration, independent of microscopic details. Our findings of universal traffic resilience can provide indication towards better understanding and designing these complex engineering systems under internal and external disturbances.

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