当日送达系统的机队规模和服务区域划分

Dipayan Banerjee, A. Erera, A. Toriello
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引用次数: 13

摘要

我们研究了车队规模和将服务区域划分为当日送达(SDD)系统的车辆路线区域的相关战术设计问题。现有的SDD研究主要集中在作战调度问题上,没有考虑系统设计问题。先前的SDD系统设计工作没有考虑到当一个服务区域可能被划分为单个车辆专用区域时的车队规模决策;这种设计已被证明可以提高相关车辆路线设置的系统效率。使用连续逼近来捕获平均情况下的操作行为,我们首先考虑独立最大化单个车辆交付区域面积的问题。我们描述了区域最大化调度策略,并利用这些结果开发了一个程序,计算最佳区域,作为一个区域到仓库的距离的函数,给定每辆车的最大每日调度数量。然后,我们演示了如何从最优区域函数中得出车队规模,并提出了一种相关的Voronoi方法,将服务区域划分为单个车辆区域。我们在考虑两个不同服务区域的计算研究中测试了车队规模和划分方法,并通过操作模拟证明了其实用性和有效性。该方法使用最小的计算量,指定车队规模,建立满足运营要求的车辆交付区域,并通过仿真结果进行验证。
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Fleet Sizing and Service Region Partitioning for Same-Day Delivery Systems
We study the linked tactical design problems of fleet sizing and partitioning a service region into vehicle routing zones for same-day delivery (SDD) systems. Existing SDD studies focus primarily on operational dispatch problems and do not consider system design questions. Prior work on SDD system design has not considered the fleet sizing decision when a service region may be partitioned into zones dedicated to individual vehicles; such designs have been shown to improve system efficiency in related vehicle routing settings. Using continuous approximations to capture average-case operational behavior, we consider first the problem of independently maximizing the area of a single-vehicle delivery zone. We characterize area-maximizing dispatching policies and leverage these results to develop a procedure for calculating optimal areas as a function of a zone’s distance from the depot, given a maximum number of daily dispatches per vehicle. We then demonstrate how to derive fleet sizes from optimal area functions and propose an associated Voronoi approach to partition the service region into single-vehicle zones. We test the fleet sizing and partitioning approach in a computational study that considers two different service regions and demonstrate its pragmatism and effectiveness via an operational simulation. Using minimal computation, the approach specifies fleet sizes and builds vehicle delivery zones that meet operational requirements, verified by simulation results.
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