基于决策图的路线松弛的双重约束:卡车-无人机路由的应用

IF 4.4 2区 工程技术 Q1 OPERATIONS RESEARCH & MANAGEMENT SCIENCE
Ziye Tang, Willem-Jan van Hoeve
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引用次数: 0

摘要

对于车辆路由问题,需要对最优值进行强对偶约束,以开发可扩展的精确算法,并评估启发式算法的性能。在这项工作中,我们提出了一种迭代算法来计算对偶边界,其动机是决策图与分支-切割-定价算法中用于定价的动态编程模型之间的联系。我们应用决策图文献中的技术,生成并加强新的路径松弛,从而在不使用列生成的情况下获得对偶边界。我们的方法具有通用性,可应用于各种有相应动态编程模型的车辆路由问题。我们将我们的框架应用于有无人机的旅行推销员问题,并证明它产生的对偶边界与现有技术相比具有竞争力。如果将我们的方法应用到更大的问题实例中,而最先进的方法无法扩展,那么我们的方法就会优于文献中的其他约束技术:这项工作得到了美国国家科学基金会 [Grant 1918102] 和海军研究办公室 [Grants N00014-18-1-2129 and N00014-21-1-2240] 的支持:在线附录见 https://doi.org/10.1287/trsc.2021.0170 。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dual Bounds from Decision Diagram-Based Route Relaxations: An Application to Truck-Drone Routing
For vehicle routing problems, strong dual bounds on the optimal value are needed to develop scalable exact algorithms as well as to evaluate the performance of heuristics. In this work, we propose an iterative algorithm to compute dual bounds motivated by connections between decision diagrams and dynamic programming models used for pricing in branch-and-cut-and-price algorithms. We apply techniques from the decision diagram literature to generate and strengthen novel route relaxations for obtaining dual bounds without using column generation. Our approach is generic and can be applied to various vehicle routing problems in which corresponding dynamic programming models are available. We apply our framework to the traveling salesman with drone problem and show that it produces dual bounds competitive to those from the state of the art. Applied to larger problem instances in which the state-of-the-art approach does not scale, our method outperforms other bounding techniques from the literature.Funding: This work was supported by the National Science Foundation [Grant 1918102] and the Office of Naval Research [Grants N00014-18-1-2129 and N00014-21-1-2240].Supplemental Material: The online appendix is available at https://doi.org/10.1287/trsc.2021.0170 .
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来源期刊
Transportation Science
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.
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