An Iterative Sample Scenario Approach for the Dynamic Dispatch Waves Problem

IF 4.4 2区工程技术 Q1 OPERATIONS RESEARCH & MANAGEMENT SCIENCE

Transportation Science Pub Date : 2024-03-19 DOI:10.1287/trsc.2023.0111

Leon Lan, Jasper M. H. van Doorn, Niels A. Wouda, Arpan Rijal, Sandjai Bhulai

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引用次数: 0

Abstract

A challenge in same-day delivery operations is that delivery requests are typically not known beforehand, but are instead revealed dynamically during the day. This uncertainty introduces a trade-off between dispatching vehicles to serve requests as soon as they are revealed to ensure timely delivery and delaying the dispatching decision to consolidate routing decisions with future, currently unknown requests. In this paper, we study the dynamic dispatch waves problem, a same-day delivery problem in which vehicles are dispatched at fixed decision moments. At each decision moment, the system operator must decide which of the known requests to dispatch and how to route these dispatched requests. The operator’s goal is to minimize the total routing cost while ensuring that all requests are served on time. We propose iterative conditional dispatch (ICD), an iterative solution construction procedure based on a sample scenario approach. ICD iteratively solves sample scenarios to classify requests to be dispatched, postponed, or undecided. The set of undecided requests shrinks in each iteration until a final dispatching decision is made in the last iteration. We develop two variants of ICD: one variant based on thresholds, and another variant based on similarity. A significant strength of ICD is that it is conceptually simple and easy to implement. This simplicity does not harm performance: through rigorous numerical experiments, we show that both variants efficiently navigate the large state and action spaces of the dynamic dispatch waves problem and quickly converge to a high-quality solution. Finally, we demonstrate that the threshold-based ICD variant achieves excellent results on instances from the EURO Meets NeurIPS 2022 Vehicle Routing Competition, nearly matching the performance of the winning machine learning–based strategy.History: This paper has been accepted for the Transportation Science Special Issue on DIMACS Implementation Challenge: Vehicle Routing Problems.Funding: This work was supported by TKI Dinalog, Topsector Logistics, and the Dutch Ministry of Economic Affairs and Climate Policy.Supplemental Material: The online appendix is available at https://doi.org/10.1287/trsc.2023.0111 .

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动态调度波浪问题的迭代样本方案法

当日送达业务面临的一个挑战是，送达请求通常不是事先知道的，而是在一天中动态揭示的。这种不确定性带来了一个权衡问题，即在请求被披露后立即调度车辆为其提供服务，以确保及时送货；或者延迟调度决策，以便将路由决策与未来的、当前未知的请求结合起来。在本文中，我们研究了动态调度波问题，这是一个在固定决策时刻调度车辆的当日交付问题。在每个决策时刻，系统操作员必须决定调度哪些已知请求，以及如何对这些已调度请求进行路由。操作员的目标是最大限度地降低总路由成本，同时确保准时送达所有请求。我们提出了迭代条件调度 (ICD)，这是一种基于样本场景方法的迭代解决方案构建程序。ICD 对样本场景进行迭代求解，将请求分类为派遣、推迟或未决定。未决请求集在每次迭代中都会缩小，直到最后一次迭代做出最终调度决定。我们开发了 ICD 的两个变体：一个是基于阈值的变体，另一个是基于相似性的变体。ICD 的一大优势是概念简单，易于实现。这种简单性并没有损害其性能：通过严格的数值实验，我们证明这两种变体都能有效地浏览动态调度波问题的大型状态和行动空间，并快速收敛到高质量的解决方案。最后，我们证明了基于阈值的 ICD 变体在 EURO Meets NeurIPS 2022 年车辆路由竞赛的实例上取得了优异成绩，几乎与获奖的基于机器学习的策略不相上下：本文已被 DIMACS Implementation Challenge 运输科学特刊录用：资助：这项工作得到了 TKI Dinalog、Topsector Logistics 以及荷兰经济事务和气候政策部的支持：在线附录见 https://doi.org/10.1287/trsc.2023.0111 。

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来源期刊

Transportation Science 工程技术-运筹学与管理科学

CiteScore

8.30

自引率

10.90%

发文量

111

审稿时长

12 months

期刊介绍： Transportation Science, published quarterly by INFORMS, is the flagship journal of the Transportation Science and Logistics Society of INFORMS. As the foremost scientific journal in the cross-disciplinary operational research field of transportation analysis, Transportation Science publishes high-quality original contributions and surveys on phenomena associated with all modes of transportation, present and prospective, including mainly all levels of planning, design, economic, operational, and social aspects. Transportation Science focuses primarily on fundamental theories, coupled with observational and experimental studies of transportation and logistics phenomena and processes, mathematical models, advanced methodologies and novel applications in transportation and logistics systems analysis, planning and design. The journal covers a broad range of topics that include vehicular and human traffic flow theories, models and their application to traffic operations and management, strategic, tactical, and operational planning of transportation and logistics systems; performance analysis methods and system design and optimization; theories and analysis methods for network and spatial activity interaction, equilibrium and dynamics; economics of transportation system supply and evaluation; methodologies for analysis of transportation user behavior and the demand for transportation and logistics services. Transportation Science is international in scope, with editors from nations around the globe. The editorial board reflects the diverse interdisciplinary interests of the transportation science and logistics community, with members that hold primary affiliations in engineering (civil, industrial, and aeronautical), physics, economics, applied mathematics, and business.