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Self-sustained nonlinear waves in traffic flow

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arxiv 0810.2820 v1 pith:5IOD2T6V submitted 2008-10-15 physics.soc-ph math.APnlin.PSphysics.flu-dyn

Self-sustained nonlinear waves in traffic flow

classification physics.soc-ph math.APnlin.PSphysics.flu-dyn
keywords jamitonssolutionstrafficanalysisconditionsexaminednonlinearroadway
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In analogy to gas-dynamical detonation waves, which consist of a shock with an attached exothermic reaction zone, we consider herein nonlinear traveling wave solutions, termed "jamitons," to the hyperbolic ("inviscid") continuum traffic equations. Generic existence criteria are examined in the context of the Lax entropy conditions. Our analysis naturally precludes traveling wave solutions for which the shocks travel downstream more rapidly than individual vehicles. Consistent with recent experimental observations from a periodic roadway (Sugiyama et al., New Journal of Physics, 10, 2008), our numerical calculations show that, under appropriate road conditions, jamitons are attracting solutions, with the time evolution of the system converging towards a jamiton-dominated configuration. Jamitons are characterized by a sharp increase in density over a relatively compact section of the roadway. Applications of our analysis to traffic modeling and control are examined by way of a detailed example.

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