A Bi-Objective Traffic Signal Optimization Model for Mixed Traffic Concerning Pedestrian Delays
Citation
AKYOL, Görkem, Mehmet Ali SİLGU, Sadullah GÖNCÜ & Hilmi Berk ÇELİKOĞLU. "A Bi-Objective Traffic Signal Optimization Model for Mixed Traffic Concerning Pedestrian Delays". Transportation Research Procedia, 78 (2024): 182-189.Abstract
Urban traffic networks suffer in numerous ways from traffic congestion. Some of these adverse effects are increased travel times
of cars, buses, bicycle users, pedestrians etc., with the addition of excessive greenhouse gas emissions. Transportation engineers
and policy makers try to improve the quality of urban transportation systems by developing projects to enhance the pedestrian
experience, reduce private car usage, reduce total time spent in the network through different control strategies, and diminish the
detrimental effects. In this context, this study takes Connected and Automated Vehicles (CAVs) and pedestrians into account at
signal-controlled intersections. A novel intersection signal control optimization methodology that incorporates pedestrian delays
and vehicular emissions from CAVs is presented. Non-dominated sorting genetic algorithm-II is utilized to solve the multiobjective
optimization problem. For the emission calculations, the MOVES3 emission model is utilized. The proposed framework is tested
on real-world case study. Simulation experiments showed major improvements in pedestrian delays and lower emissions.
Source
Transportation Research ProcediaVolume
78URI
https://www.sciencedirect.com/science/article/pii/S2352146524000772https://hdl.handle.net/11352/4879