Abstract As urban rail networks in big cities tend to expand, the synchronization of trains has become a key issue for improving the service quality of passengers because most urban rail transit systems in the world involve more than one connected line, and passengers must transfer between these lines. In contrast to most existing studies that focus on a single line, in this study, we focus on synchronized train timetable optimization in an urban rail transit network, considering the dynamic passenger demand with transfers as well as train loading capacity constraints. First, we propose a mixed-integer programming (MIP) formulation for the synchronization of training timetables, in which we consider the optimization of two objectives. The first objective is to minimize the total waiting time of passengers, involving arriving and transfer passengers. Our second objective is a synchronization quality indicator (SQI) with piecewise linear formulation, which we propose to evaluate the transfer convenience of passengers. Subsequently, we propose several linearization techniques to handle the nonlinear constraints in the MIP formulation, and we prove the tightness of our reformulations. To solve large-scale instances more efficiently, we also develop a hybrid adaptive large neighbor search algorithm that is compared with two benchmarks: the commercial solver CPLEX and a metaheuristic. Finally, we focus on a series of real-world instances based on historical data from the Beijing metro network. The results show that our algorithm outperforms both benchmarks, and the synchronized timetable generated by our approach reduces the average waiting time of passengers by 1.5% and improves the connection quality of the Beijing metro by 14.8%.
Highlights Propose an mixed-integer programming (MIP) formulation for the synchronization of train timetables with two objectives. Propose an synchronization quality indicator (SQI) with piece-wise linear formulation. Propose several linearization techniques to handle the nonlinear constraints. Develop a hybrid adaptive large neighbor search algorithm. Conduct a series of real-world instances based on the historical data of Beijing metro network.
Synchronization of train timetables in an urban rail network: A bi-objective optimization approach
2023-04-27
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Optimal synchronization and coordination of actual passenger-rail timetables
Taylor & Francis Verlag | 2019
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