Scheduling-location problem with drones

IF 3.1 4区管理学 Q2 MANAGEMENT

International Transactions in Operational Research Pub Date : 2023-12-28 DOI:10.1111/itor.13423

Dongwook Kim, Ilkyeong Moon

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引用次数: 0

Abstract

Drone operation, a new driving force for logistics innovation, is struggling to overcome practical challenges. One of the concerns for drone utilization is limited flight ranges, and different concepts of facilities are continually developed to support drone delivery. These new facilities prompt the need to integrate decision-making across different phases. In particular, the deployment of facilities that complement the physical limitations of drones and the scheduling of drones to perform delivery tasks are closely related. Therefore, we developed a scheduling-location problem with drones, a new methodology for integrating operational and strategic planning decisions. The integrated decision-making determines the location of the drone facilities by not only considering the critical distance of facilities but also by taking into account whether the delivery schedule is implemented. In our model, additional drone facilities are sometimes opened considering available drones due to the feasibility of the delivery schedule. An extended formulation and a restricted master heuristic are proposed to solve problems time-efficiently. Computational results show that the restricted master heuristic outperforms the mathematical model in finding solutions for large-scale instances. The developed model and heuristic algorithm provide drone delivery services even in areas that are not easily reachable by drones due to being located far from the warehouse and can be effectively applied to humanitarian logistics.

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无人机的调度定位问题

无人机作业作为物流创新的新动力，正在努力克服实际挑战。无人机使用的问题之一是飞行距离有限，而为支持无人机送货，人们不断开发出不同概念的设施。这些新设施促使我们需要整合不同阶段的决策。特别是，与无人机物理限制相辅相成的设施部署与无人机执行配送任务的调度密切相关。因此，我们提出了无人机调度-定位问题，这是一种整合运营和战略规划决策的新方法。综合决策决定无人机设施的位置时，不仅要考虑设施的临界距离，还要考虑是否执行配送计划。在我们的模型中，有时会根据送货计划的可行性，考虑可用无人机的情况，开设额外的无人机设施。我们提出了一个扩展公式和一个受限主启发式，以高效地解决问题。计算结果表明，在寻找大规模实例的解决方案时，受限主启发式优于数学模型。所开发的模型和启发式算法可提供无人机送货服务，即使是在无人机不易到达的地区，因为这些地区远离仓库，因此可有效地应用于人道主义物流。

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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来源期刊

International Transactions in Operational Research OPERATIONS RESEARCH & MANAGEMENT SCIENCE-

CiteScore

7.80

自引率

12.90%

发文量

146

审稿时长

>12 weeks

期刊介绍： International Transactions in Operational Research (ITOR) aims to advance the understanding and practice of Operational Research (OR) and Management Science internationally. Its scope includes: International problems, such as those of fisheries management, environmental issues, and global competitiveness International work done by major OR figures Studies of worldwide interest from nations with emerging OR communities National or regional OR work which has the potential for application in other nations Technical developments of international interest Specific organizational examples that can be applied in other countries National and international presentations of transnational interest Broadly relevant professional issues, such as those of ethics and practice Applications relevant to global industries, such as operations management, manufacturing, and logistics.