Abstract
The networked operation of Urban Rail Transit (URT) brings the new challenge of network-wide maintenance. This research focuses on the URT Network-Wide Maintenance Decision-Making Problem (URT-NMDP), including regionalized maintenance network design and maintenance resource allocation. In this work, we proposed a bi-objective integer programming model that integrates the characteristics of set coverage and P-median models, resulting in the regionalized maintenance network design model. Some critical factors are considered in the model, such as the importance of node, the maximum failure response time, and maintenance guarantee rules. We designed a NSGA-II based algorithm to solve the model. Moreover, due to the uncertainty of failures in the URT network, we developed the method of allocating maintenance resources based on Monte Carlo simulation to strengthen the reliability of the regionalized maintenance network. With the model and algorithm presented in this work, we obtained Pareto optimal solutions of URT-NMDP, i.e., URT network-wide maintenance planning schemes, which include the number and location of maintenance points, the allocation of demand points, and the amount of maintenance units. Finally, a real-world case is studied to evaluate the operating performance of these schemes for verifying the method in our paper. The results of the case study demonstrate that the reasonable and tested-in-practice maximum failure response time is the precondition for the efficient URT maintenance network. The maintenance scheme considered the weighted importance of node shows the optimal performance, with the shortest overall maintenance path and the minimum average failure response time and investment cost on maintenance resources.
Highlights
As of the end of 2019, 40 cities in China have opened Urban Rail Transit (URT), and their line length of 6730.27 km and ridership of more than 21.07 billion trips are ranking on the top of the world [1]
We proposed a novel URT-NMDP to fill the corresponding research gap
Considering the uncertainty of the failures in the URT network, we presented the Monte Carlo simulation method to allocate maintenance units for the regionalized URT maintenance network developed in this research
Summary
As of the end of 2019, 40 cities in China have opened Urban Rail Transit (URT), and their line length of 6730.27 km and ridership of more than 21.07 billion trips are ranking on the top of the world [1]. High-speed developing URT in construction and operation is stepping into the stage of network-wide maintenance [2]. The characteristics of convenience, speed, punctuality, and large-volume for URT increase the attraction rate of public transportation. From a long-term perspective, that is conducive to sustainable development of the URT to explore systematic technology and methods for URT network-wide maintenance. The sustainable development of the URT is an important precondition to promote the sustainability of urban transportation and cities. The theories and methods oriented around the network-wide maintenance are considerably behind the practice development of URT construction and operation. Quick response, high-efficiency, low-cost, and overall resources are strongly needed for URT network-wide maintenance
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