@article{ref1,
title="Spontaneous phase transition from free flow to synchronized flow in traffic on a single-lane highway",
journal="Physical review E: Statistical, nonlinear, and soft matter physics",
year="2013",
author="Jin, Cheng-Jie and Wang, Weixu and Jiang, Rui and Zhang, H. M. and Wang, Hao",
volume="87",
number="1-1",
pages="012815-012815",
abstract="Traffic flow complexity comes from the car-following and lane-changing behavior. Based on empirical data for individual vehicle speeds and time headways measured on a single-lane highway section, we have studied the traffic flow properties induced by pure car-following behavior. We have found that a spontaneous sudden drop in velocity could happen in a platoon of vehicles when the velocity of the leading vehicle is quite high (∼70 km/h). In contrast, when the velocity of the leading vehicle in a platoon slows down, such a spontaneous sudden drop of velocity has not been observed. Our finding indicates that traffic breakdown on a single-lane road might be a phase transition from free flow to synchronized flow (F→S transition). We have found that the flow rate within the emergent synchronized flow can be either smaller or larger than the flow rate in the free flow within which the synchronized flow propagates. Our empirical findings support Kerner's three-phase theory in which traffic breakdown is associated with an F→S transition.<p /> <p>Language: en</p>",
language="en",
issn="1539-3755",
doi="",
url="http://dx.doi.org/"
}