On "jamitons," self-sustained nonlinear traffic waves
Analysis of PDEs
2008-09-18 v2 Mathematical Physics
math.MP
Pattern Formation and Solitons
Physics and Society
Abstract
"Phantom jams," traffic blockages that arise without apparent cause, have long frustrated transportation scientists. Herein, we draw a novel homology between phantom jams and a related class of self-sustained transonic waves, namely detonations. Through this analogy, we describe the jam structure; favorable agreement with reported measurements from congested highways is observed. Complementary numerical simulations offer insights into the jams' development. Our results identify conditions likely to result in a dangerous concentration of vehicles and thereby lend guidance in traffic control and roadway design.
Cite
@article{arxiv.0809.2828,
title = {On "jamitons," self-sustained nonlinear traffic waves},
author = {Morris R. Flynn and Aslan R. Kasimov and Jean-Christophe Nave and Rodolfo R. Rosales and Benjamin Seibold},
journal= {arXiv preprint arXiv:0809.2828},
year = {2008}
}
Comments
6 pages, 4 figures