For urban road networks with hazardous materials (hazmat) transportation, a Multi-Objective Sustainable trAffic Control (MOSAC) is proposed in this chapter. A multi-objective stochastic program is proposed to simultaneously minimize total travel delay and reduce maximum risk exposure to all road users. Following Wardrop’s principle, travelers’ route choice is considered. In order to effectively solve the proposed stochastic program, a novel heuristic is proposed. Numerical experiments using a realistic road network are performed to demonstrate the feasibility of proposed approach. For varying traffic conditions, computational comparisons are also made with recently proposed one, indicating that system performance can be greatly improved by MOSAC in all cases.
A Multi-Objective Sustainable Traffic Signal Control for Smart Cities Under Uncertainty
Int.Ser.Operations Res.
2023-01-17
24 pages
Article/Chapter (Book)
Electronic Resource
English
Multi-objective sustainable traffic control , Smart city , Stochastic bi-level program , Uncertainty , Hazmat transportation Environment , Sustainable Development , Operations Management , Operations Research/Decision Theory , Supply Chain Management , Production , Artificial Intelligence , Social Sciences
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