加拿大国家铁路公司分布式动力机车分配问题

The Locomotive Assignment Problem with Distributed Power at the Canadian National Railway Company

Transportation Science · 2021
被引 16
ABS 3

中文导读

研究了加拿大国家铁路公司在战术层面上的机车分配问题,提出了两种整数线性规划模型和基于Benders分解的算法,显著减少了求解时间,并通过实际数据验证了效果。

Abstract

Some of the most important optimization problems faced by railway operators arise from the management of their locomotive fleet. In this paper, we study a general version of the locomotive assignment problem encountered at the tactical level by one of the largest railroads in North America: the Canadian National (CN) Railway Company. We present a modeling framework with two integer linear programming formulations and contribute to the state of the art by allowing decisions on each train’s operating mode (distributed power or not) over the whole (weekly) planning horizon without partitioning it winto smaller time windows. Given the difficulty in solving the problem, one of the formulations is enhanced through various refinements, such as constraint relaxations, preprocessing, and fixed cost approximations. We thus achieve a significant reduction in the required computational time to solve instances of realistic size. We also present two versions of a Benders decomposition–based algorithm to obtain feasible solutions. On average, it allows a reduction of the associated computational time by two hours. Results from an extensive computational study and a case study with data provided by CN confirm the potential benefits of the model and solution approach.

铁路运营机车管理整数规划运筹学Benders分解