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Traffic management: An outlook

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  • Kurzhanskiy, Alex A.
  • Varaiya, Pravin

Abstract

Traffic congestion is caused by inefficient road operations and by excess demand. Inefficient traffic control is pervasive. Most urban streets and freeways do not have an adequate traffic sensing infrastructure, so one does not know how much congestion there is, its cause, or whether congestion mitigation projects have met the expected improvement. In the absence of adequate information, neither road operators nor travelers can gauge how poorly the road system is operated. Because the traffic changes randomly, the road system should be managed by effective feedback control of signals at intersections and at on-ramps. These control techniques are well known, and they have been successfully adopted in isolated road networks in different parts of the world. The investment in sensing needed to implement these control techniques is trivial compared to the benefits of an efficiently operated road system. But management is not able to quantify road system performance or how much improvement is possible and at what cost. Excess demand can be eliminated by appropriate incentives, including pricing. But empirical analysis of popular approaches such as HOV and HOT lanes suggests that they are ineffective unless the freeways are also efficiently managed. New ITS technologies, such as ‘integrated corridor management’ systems, while promising in theory, are likely to fail in the absence of a comprehensive traffic measurement system. More valuable might be initiatives that seek to shift modes away from private auto, adding bicycle and bus lanes, ridesharing, and telecommuting. Most of the data used in this analysis is from California.

Suggested Citation

  • Kurzhanskiy, Alex A. & Varaiya, Pravin, 2015. "Traffic management: An outlook," Economics of Transportation, Elsevier, vol. 4(3), pages 135-146.
    • Handle: RePEc:eee:ecotra:v:4:y:2015:i:3:p:135-146
    DOI: 10.1016/j.ecotra.2015.03.002
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    References listed on IDEAS

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    1. Osorio, Carolina & Bierlaire, Michel, 2009. "An analytic finite capacity queueing network model capturing the propagation of congestion and blocking," European Journal of Operational Research, Elsevier, vol. 196(3), pages 996-1007, August.
    2. Geroliminis, Nikolas & Daganzo, Carlos F., 2008. "Existence of urban-scale macroscopic fundamental diagrams: Some experimental findings," Transportation Research Part B: Methodological, Elsevier, vol. 42(9), pages 759-770, November.
    3. Joyce Dargay & Dermot Gately & Martin Sommer, 2007. "Vehicle Ownership and Income Growth, Worldwide: 1960-2030," The Energy Journal, International Association for Energy Economics, vol. 0(Number 4), pages 143-170.
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    Cited by:

    1. Coogan, Samuel & Dutreix, Maxence, 2017. "Traffic Predictive Control: Case Study and Evaluation," Institute of Transportation Studies, Research Reports, Working Papers, Proceedings qt0bs645m2, Institute of Transportation Studies, UC Berkeley.
    2. Coogan, Samuel & Flores, Christopher & Varaiya, Pravin, 2017. "Traffic predictive control from low-rank structure," Transportation Research Part B: Methodological, Elsevier, vol. 97(C), pages 1-22.
    3. Horowitz, Roberto & Kurzhanskiy, Alex A. & Wright, Mathew, 2018. "HOT Lane Simulation Tools," Institute of Transportation Studies, Research Reports, Working Papers, Proceedings qt4ff207ng, Institute of Transportation Studies, UC Berkeley.
    4. Andrea Pompigna & Raffaele Mauro, 2022. "A Statistical Simulation Model for the Analysis of the Traffic Flow Reliability and the Probabilistic Assessment of the Circulation Quality on a Freeway Segment," Sustainability, MDPI, vol. 14(23), pages 1-21, November.

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