Order parameter model for unstable multilane traffic flow

Details Order parameter model for unstable multilane traffic flow Order parameter model for unstable multilane traffic flow

1999-10-18

arxiv.org/abs/cond-mat/9910268v2

Physical Review E, v. 62, n. 5, pp. 6082-6093 (2000)

Physics

Condensed Matter

Statistical Mechanics

REVTeX 3.1, 10 pages with 10 PostScript figures

Scientific paper

10.1103/PhysRevB.62.5

We discuss a phenomenological approach to the description of unstable vehicle motion on multilane highways that explains in a simple way the observed sequence of the phase transitions "free flow -> synchronized motion -> jam" as well as the hysteresis in the transition "free flow <-> synchronized motion". We introduce a new variable called order parameter that accounts for possible correlations in the vehicle motion at different lanes. So, it is principally due to the "many-body" effects in the car interaction, which enables us to regard it as an additional independent state variable of traffic flow. Basing on the latest experimental data (cond-mat/9905216) we assume that these correlations are due to a small group of "fast" drivers. Taking into account the general properties of the driver behavior we write the governing equation for the order parameter. In this context we analyze the instability of homogeneous traffic flow manifesting itself in both of the mentioned above phase transitions where, in addition, the transition "synchronized motion -> jam" also exhibits a similar hysteresis. Besides, the jam is characterized by the vehicle flows at different lanes being independent of one another. We specify a certain simplified model in order to study the general features of the car cluster self-formation under the phase transition "free flow <-> synchronized motion". In particular, we show that the main local parameters of the developed cluster are determined by the state characteristics of vehicle motion only.

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