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Optimization Model of Transit Signal Priority Control for Intersection and Downstream Bus Stop

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  • Rui Li
  • Changjiang Zheng
  • Wenquan Li

Abstract

Transit signal priority has a positive effect on improving traffic condition and level of transit service in the urban area. In this paper, a passenger-based transit signal priority (TSP) optimization model is formulated to optimize intersection signal phasing based on minimizing accessibility-based passenger delay at the intersection and increased waiting-delay at the downstream bus stop simultaneously. Genetic Algorithm is utilized to calculate passenger-based optimization model that is calibrated by evening rush hour actual traffic data (17:30–18:30, October 13th–October 15th, 2015) along Shuiximen Boulevard in Nanjing, China. The performance of the proposed optimization model in decreasing delay and improving system reliability is simulated and evaluated by VISSIM-based simulation platform, and the results illustrate that the proposed optimization model presents promising outcomes in decreasing accessibility-based passenger delay at intersection (average reduction of 12%) and passenger waiting-delay at downstream bus service stop (average reduction of 18%) compared with traditional vehicle-based TSP optimization method in rush hour.

Suggested Citation

  • Rui Li & Changjiang Zheng & Wenquan Li, 2016. "Optimization Model of Transit Signal Priority Control for Intersection and Downstream Bus Stop," Mathematical Problems in Engineering, Hindawi, vol. 2016, pages 1-8, February.
    • Handle: RePEc:hin:jnlmpe:9487190
    DOI: 10.1155/2016/9487190
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