从商店按需配送:随机需求下的动态调度和路由

Sheng Liu, Zhixing Luo
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引用次数: 5

摘要

问题定义:按需配送在全球越来越流行。受一家大型食品杂货连锁店提供快速按需配送服务的激励,我们建模并解决了以准时性能为主要目标的最后一英里配送系统的随机动态驾驶员调度和路线问题。系统操作员需要派遣一组司机,并指定他们的送货路线,以应对在固定时间段内到达的随机需求。由于维数的限制,由此产生的随机动态规划的求解具有挑战性。方法/结果:我们提出了一种新的结构化近似框架,通过参数化调度和路由策略来近似值函数。分析了近似框架的结构特性,建立了大需求场景下近似框架的性能保证。然后,我们为基于Benders分解和列生成的近似问题开发了有效的精确算法,可在几分钟内提供可验证的最优解。管理意义:对真实世界数据集的评估结果表明,我们的框架在交付时间方面平均优于公司当前政策36.53%。我们还执行了几个策略实验,以了解具有不同车队规模和调度频率的动态调度和路由的价值。基金资助:中国国家自然科学基金[基金资助:72222011和72171112],中国科学技术协会[基金资助:2019QNRC001],加拿大自然科学与工程研究理事会[基金资助:RGPIN-2022-04950]。补充材料:在线附录可在https://doi.org/10.1287/msom.2022.1171上获得。
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On-Demand Delivery from Stores: Dynamic Dispatching and Routing with Random Demand
Problem definition: On-demand delivery has become increasingly popular around the world. Motivated by a large grocery chain store who offers fast on-demand delivery services, we model and solve a stochastic dynamic driver dispatching and routing problem for last-mile delivery systems where on-time performance is the main target. The system operator needs to dispatch a set of drivers and specify their delivery routes facing random demand that arrives over a fixed number of periods. The resulting stochastic dynamic program is challenging to solve because of the curse of dimensionality. Methodology/results: We propose a novel structured approximation framework to approximate the value function via a parametrized dispatching and routing policy. We analyze the structural properties of the approximation framework and establish its performance guarantee under large-demand scenarios. We then develop efficient exact algorithms for the approximation problem based on Benders decomposition and column generation, which deliver verifiably optimal solutions within minutes. Managerial implications: The evaluation results on a real-world data set show that our framework outperforms the current policy of the company by 36.53% on average in terms of delivery time. We also perform several policy experiments to understand the value of dynamic dispatching and routing with varying fleet sizes and dispatch frequencies. Funding: This work was supported by the National Natural Science Foundation of China [Grants 72222011 and 72171112], China Association for Science and Technology [Grant 2019QNRC001], and the Natural Sciences and Engineering Research Council of Canada [Grant RGPIN-2022-04950]. Supplemental Material: The online appendices are available at https://doi.org/10.1287/msom.2022.1171 .
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