带服务调度的列车分路局部搜索算法

R. V. D. Broek, H. Hoogeveen, M. Akker, B. Huisman
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引用次数: 7

摘要

本文研究了带服务任务调度的列车单元调车问题。这个问题源于荷兰铁路公司,它是荷兰主要的铁路运营商。它的紧迫性源于即将到来的机车车队的扩张,需要处理不断增加的乘客数量。该问题包括将到达调车场的列车单元与离开的列车进行匹配,安排可用资源的清洁和维护等服务任务,并将列车停放在可用的轨道上,以使调车场能够无冲突地运行。这些不同的方面导致了一个计算上极其困难的问题,它结合了几个众所周知的np困难问题。在本文中,我们提出了第一种解决方法,涵盖了分流和调度问题的各个方面。我们描述了一个捕获完整问题的偏序调度表示,并提出了一个利用偏序的局部搜索算法。通过对荷兰铁路公司提供的实际算例进行了计算研究,并与已有的混合整数线性规划进行了比较。我们证明了我们的局部搜索算法是解决完全分流和调度问题的实际问题实例的第一种方法。当列车单元调车问题被孤立考虑时,即没有服务任务时,它甚至优于当前的算法。虽然我们的方法是为荷兰铁路开发的,但它适用于任何调车场或服务地点,无论其布局如何,使用自推进列车单元并且不必处理过往列车。
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A Local Search Algorithm for Train Unit Shunting with Service Scheduling
In this paper we consider the train unit shunting problem extended with service task scheduling. This problem originates from Dutch Railways, which is the main railway operator in the Netherlands. Its urgency stems from the upcoming expansion of the rolling stock fleet needed to handle the ever-increasing number of passengers. The problem consists of matching train units arriving on a shunting yard to departing trains, scheduling service tasks such as cleaning and maintenance on the available resources, and parking the trains on the available tracks such that the shunting yard can operate conflict-free. These different aspects lead to a computationally extremely difficult problem, which combines several well-known NP-hard problems. In this paper, we present the first solution method covering all aspects of the shunting and scheduling problem. We describe a partial order schedule representation that captures the full problem, and we present a local search algorithm that utilizes the partial ordering. The proposed solution method is compared with an existing mixed integer linear program in a computational study on realistic instances provided by Dutch Railways. We show that our local search algorithm is the first method to solve real-world problem instances of the complete shunting and scheduling problem. It even outperforms current algorithms when the train unit shunting problem is considered in isolation, that is, without service tasks. Although our method was developed for the case of the Dutch Railways, it is applicable to any shunting yard or service location, irrespective of its layout, that uses self-propelling train units and that does not have to handle passing trains.
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