A stabilized finite element formulation for continuum models of traffic flow

Vikram, Durgesh ; Mittal, Sanjay ; Chakroborty, Partha (2011) A stabilized finite element formulation for continuum models of traffic flow Computer Modeling in Engineering and Sciences (CMES), 79 (4). pp. 237-259. ISSN 1526-1492

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Abstract

A stabilized finite element formulation is presented to solve the gov-erning equations for traffic flow. The flow is assumed to be one-dimensional. Both, PW-type (Payne-Whitham) 2-equation models and the LWR-type (Lighthill-Whitham-Richards) 1-equation models are considered. The SUPG (Streamline-Upwind/Petrov-Galerkin) and shock capturing stabilizations are utilized. These stabilizations are sufficient for the 1-equation models. However, an additional stabilization is necessary for the 2-equation models. For the first time, such a stabilization is proposed. It arises from the coupling between the two equations andis termed as IEPG (Inter-Equation/Petrov-Galerkin) stabilization. Two behavioral models are studied: Greenshields' (GS) and Greenberg's (GB) models. Numerical tests are carried out for cases involving traffic expansion as well as shock. Excellent agreement with the exact solution is observed. The need of the IEPG stabilizationfor the 2-equation traffic models is demonstrated. An interesting observation ismade for the first time regarding the Greenberg's (GB) model in the presence of ashock. The model is found to be inconsistent in the sense that it leads to differentshock speed from the continuity and behavior equations. As a result, the 2-equationmodel leads to secondary waves in the presence of shocks.

Item Type:Article
Source:Copyright of this article belongs to Tech Science Press.
Keywords:Traffic Flow; Finite Element Method; (IEPG) Inter-equation/Petrov-galerkin Stabilization; Supg; Shock Wave; Expansion Wave
ID Code:82554
Deposited On:13 Feb 2012 06:02
Last Modified:13 Feb 2012 06:02

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