Article

A MultiObjective Optimization Approach for Integrated Timetabling and Vehicle Scheduling with Uncertainty

Details

Citation

Shen Y, Xie W & Li J (2021) A MultiObjective Optimization Approach for Integrated Timetabling and Vehicle Scheduling with Uncertainty. Journal of Advanced Transportation, 2021, Art. No.: 3529984. https://doi.org/10.1155/2021/3529984

Abstract
The timetabling problem (TTP) and vehicle scheduling problem (VSP) are two indispensable problems in public transit planning process. They used to be solved in sequence; hence, optimality of resulting solutions is compromised. To get better results, some integrated approaches emerge to solve the TTP and VSP as an integrated problem. In the existing integrated approaches, the passenger comfort on bus and the uncertainty in the real world are rarely considered. To provide better service for passengers and enhance the robustness of the schedule to be compiled, we study the integrated optimization of TTP and VSP with uncertainty. In this paper, a novel multiobjective optimization approach with the objectives of minimizing the passenger travel cost, the vehicle scheduling cost, and the incompatible trip-link cost is proposed. Meanwhile, a multiobjective hybrid algorithm, which is a combination of the self-adjust genetic algorithm (SGA), large neighborhood search (LNS) algorithm, and Pareto separation operator (PSO), is applied to solve the integrated optimization problem. The experimental results show that the approach outperforms existing approaches in terms of service level and robustness.

Journal
Journal of Advanced Transportation: Volume 2021

StatusPublished
Publication date31/12/2021
Publication date online05/08/2021
Date accepted by journal26/07/2021
URLhttp://hdl.handle.net/1893/33216
ISSN0197-6729
eISSN2042-3195

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