Citation

Kerner BS, Klenov SL. Phys. Rev. E Stat. Nonlin. Soft Matter Phys. 2009; 80(5 Pt 2): 056101.

Affiliation

GR/PTF, HPC, G021, Daimler AG, 71059 Sindelfingen, Germany. boris.kerner@daimler.com

Copyright

(Copyright © 2009, American Physical Society, Publisher American Institute of Physics)

DOI

unavailable

PMID

20365037

Abstract

Based on empirical and numerical analyses of vehicular traffic, the physics of spatiotemporal phase transitions in traffic flow on multilane roads is revealed. The complex dynamics of moving jams observed in single vehicle data measured by video cameras on American highways is explained by the nucleation-interruption effect in synchronized flow, i.e., the spontaneous nucleation of a narrow moving jam with the subsequent jam dissolution. We find that (i) lane changing, vehicle merging from on-ramps, and vehicle leaving to off-ramps result in different traffic phases-free flow, synchronized flow, and wide moving jams-occurring and coexisting in different road lanes as well as in diverse phase transitions between the traffic phases; (ii) in synchronized flow, the phase transitions are responsible for a non-regular moving jam dynamics that explains measured single vehicle data: moving jams emerge and dissolve randomly at various road locations in different lanes; (iii) the phase transitions result also in diverse expanded general congested patterns occurring at closely located bottlenecks.

Language: en