生物数学疲劳约束下的长途车辆路线与调度

Transp. Sci. Pub Date : 2021-12-02 DOI:10.1287/trsc.2021.1089

Jiawei Fu, Liang Ma

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引用次数: 2

摘要

服务时数(居屋)规例是由长途卡车司机编制的传统安全限制之一。在车辆路线问题的模型和算法中考虑了这些规则，以便为驾驶员分配安全时间表。然而，居屋管理条例忽视了一些关键的疲劳风险因素，有时，未能制定减少疲劳的时间表。本文考虑了一组基于生物数学模型的生物数学疲劳约束(BFCs)，以解决长途车辆路线和调度问题。提出了一种BFC调度算法和一种BFC- hos调度算法，并将其嵌入禁忌搜索启发式算法中，用于求解车辆路径和调度的组合问题。在改进的Solomon实例和实际实例上对所有求解方法进行了测试，计算结果证实了在长途运输规划中采用复杂且减少疲劳的调度程序的优点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Long-Haul Vehicle Routing and Scheduling with Biomathematical Fatigue Constraints

Hours of service (HOS) regulations are among the conventional safety constraints that are compiled by long-haul truck drivers. These regulations have been considered in models and algorithms of vehicle routing problems to assign safe schedules to drivers. However, the HOS regulations neglect a few crucial fatigue risk factors and, at times, fail to generate fatigue-reducing schedules. In this study, a set of biomathematical fatigue constraints (BFCs) derived from biomathematical models are considered for a long-haul vehicle routing and scheduling problem. A BFC scheduling algorithm and a BFC-HOS scheduling algorithm have been developed and then embedded within a tabu search heuristic to solve the combined vehicle routing and scheduling problem. All the solution methods have been tested on modified Solomon instances and a real-life instance, and the computational results confirm the advantages of employing a sophisticated and fatigue-reducing scheduling procedure when planning long-haul transportation.

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Transp. Sci.

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