Optimising Urban Freight Logistics Using Discrete-Event Simulation and Cluster Analysis: A Stochastic Two-Tier Hub-and-Spoke Architecture Approach

IF 7 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC Smart Cities Pub Date : 2023-09-04 DOI:10.3390/smartcities6050107
Zichong Lyu, D. Pons, Gilbert Palliparampil, Yilei Zhang
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Abstract

The transport of freight involves numerous intermediate steps, such as freight consolidation, truck allocation, and routing, all of which exhibit high day-to-day variability. On the delivery side, drivers usually cover specific geographic regions, also known as clusters, to optimise operational efficiency. A crucial aspect of this process is the effective allocation of resources to match business requirements. The discrete-event simulation (DES) technique excels in replicating intricate real-world operations and can integrate a multitude of stochastic variables, thereby enhancing its utility for decision making. The objective of this study is to formulate a routing architecture that integrates with a DES model to capture the variability in freight operations. This integration is intended to provide robust support for informed decision-making processes. A two-tier hub-and-spoke (H&S) architecture was proposed to simulate stochastic routing for the truck fleet, which provided insights into travel distance and time for cluster-based delivery. Real industry data were employed in geographic information systems (GISs) to apply the density-based spatial clustering of applications with noise (DBSCAN) clustering method to identify customer clusters and establish a truck plan based on freight demand and truck capacity. This clustering analysis and simulation approach can serve as a planning tool for freight logistics companies and distributors to optimise their resource utilisation and operational efficiency, and the findings may be applied to develop plans for new regions with customer locations and freight demands. The original contribution of this study is the integration of variable last-mile routing and an operations model for freight decision making.
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基于离散事件模拟和聚类分析的城市货运物流优化:一种随机双层枢纽轮辐结构方法
货物运输涉及许多中间步骤,如货物整合、卡车分配和路线,所有这些都表现出较高的日常可变性。在交付方面,司机通常覆盖特定的地理区域,也称为集群,以优化运营效率。这个过程的一个关键方面是有效地分配资源以满足业务需求。离散事件模拟(DES)技术擅长于复制复杂的真实世界操作,并可以集成大量随机变量,从而增强其决策实用性。本研究的目的是制定一个与DES模型集成的路线体系结构,以捕捉货运运营的可变性。这种整合旨在为知情决策过程提供强有力的支持。提出了一种双层轮辐式(H&S)架构来模拟卡车车队的随机路线,为基于集群的交付提供了旅行距离和时间的见解。在地理信息系统(GIS)中采用真实的行业数据,应用基于密度的噪声应用空间聚类(DBSCAN)聚类方法来识别客户集群,并根据货运需求和卡车容量制定卡车计划。这种聚类分析和模拟方法可以作为货运物流公司和分销商的规划工具,以优化其资源利用率和运营效率,研究结果可以用于为有客户位置和货运需求的新地区制定计划。本研究的最初贡献是将可变最后一英里路线和货运决策的运营模型相结合。
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来源期刊
Smart Cities
Smart Cities Multiple-
CiteScore
11.20
自引率
6.20%
发文量
0
审稿时长
11 weeks
期刊介绍: Smart Cities (ISSN 2624-6511) provides an advanced forum for the dissemination of information on the science and technology of smart cities, publishing reviews, regular research papers (articles) and communications in all areas of research concerning smart cities. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible, with no restriction on the maximum length of the papers published so that all experimental results can be reproduced.
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