@article{ref1,
title="A simple contagion process describes spreading of traffic jams in urban networks",
journal="Nature communications",
year="2020",
author="Saberi, Meead and Hamedmoghadam, Homayoun and Ashfaq, Mudabber and Hosseini, Seyed Amir and Gu, Ziyuan and Shafiei, Sajjad and Nair, Divya J. and Dixit, Vinayak and Gardner, Lauren and Waller, S. Travis and González, Marta C.",
volume="11",
number="1",
pages="e1616-e1616",
abstract="The spread of traffic jams in urban networks has long been viewed as a complex spatio-temporal phenomenon that often requires computationally intensive microscopic models for analysis purposes. In this study, we present a framework to describe the dynamics of congestion propagation and dissipation of traffic in cities using a simple contagion process, inspired by those used to model infectious disease spread in a population. We introduce two macroscopic characteristics for network traffic dynamics, namely congestion propagation rate β and congestion dissipation rate μ. We describe the dynamics of congestion spread using these new parameters embedded within a system of ordinary differential equations, similar to the well-known susceptible-infected-recovered (SIR) model. The proposed contagion-based dynamics are verified through an empirical multi-city analysis, and can be used to monitor, predict and control the fraction of congested links in the network over time.<p /> <p>Language: en</p>",
language="en",
issn="2041-1723",
doi="10.1038/s41467-020-15353-2",
url="http://dx.doi.org/10.1038/s41467-020-15353-2"
}