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RESEARCH PRODUCT
Metastability of Traffic Flow in Zero-Range Model
Jevgenijs KaupužsRosemary J. HarrisReinhard Mahnkesubject
PhysicsWork (thermodynamics)Grand canonical ensembleFlow (mathematics)MetastabilityDiagramMaster equationNucleationStatistical physicsTraffic flowdescription
The development of traffic jams in vehicular flow is an everyday example of the occurence of phase separation in low-dimensional driven systems, a topic which has attracted much recent interest [1–4]. In [5] the existence of phase separation is related to the size-dependence of domain currents and a quantitative criterion is obtained by considering the zero-range process (ZRP) as a generic model for domain dynamics. We use zero-range picture to study the phase separation in traffic flow in the spirit of the probabilistic (master equation) description of transportation [6]. Significantly, we find [7] that prior to condensation studied in previous works [8, 9] the system can exist in a homogeneous metastable state and we provide estimates of critical cluster size and mean nucleation time. Finally, we calculate the fundamental flux-density diagram which includes a metastable branch. Metastability and hysteresis effects have been observed in real traffic [10, 11]. For previous work focusing on the description of jam formation as a nucleation process, see [12, 13].
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2007-04-19 |