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引用次数: 0
摘要
在主要大都市地区,日益严重的交通拥堵阻碍了商品的地面运输,构成了供应链中断的重大风险。为了应对这一挑战,货运无人机正在成为一种潜在的运输方式,可以提高药品供应链的可靠性,并增强医疗保健。本研究提出了一种新的混合工作流程,将机器学习和地理信息系统相结合,以确定供应商可以启动货运无人机服务的最少地点,以产生最大的初始效益。结果表明,通过在美国连续四个地区的九个大都市开展服务,400英里范围内的无人机最初可以移动所有药品重量的28%以上。全世界的医学界、供应链管理者和政策制定者都可以利用这一工作流程,根据数据做出决策,决定在哪里获得无人机运输药品的最大机会。所提议的方法可以为Advanced Air Mobility等政策和标准提供信息,以帮助解决供应链中断、降低运输成本和改善医疗保健结果。
Unlocking Drone Potential in the Pharma Supply Chain: A Hybrid Machine Learning and GIS Approach
In major metropolitan areas, the growing levels of congestion pose a significant risk of supply chain disruptions by hindering surface transportation of commodities. To address this challenge, cargo drones are emerging as a potential mode of transport that could improve the reliability of the pharmaceutical supply chain and enhance healthcare. This study proposes a novel hybrid workflow that combines machine learning and a geographic information system to identify the fewest locations where providers can initiate cargo drone services to yield the greatest initial benefits. The results show that by starting a service in only nine metropolitan areas across four regions of the contiguous United States, drones with a robust 400-mile range can initially move more than 28% of the weight of all pharmaceuticals. The medical community, supply chain managers, and policymakers worldwide can use this workflow to make data-driven decisions about where to access the largest opportunities for pharmaceutical transport by drones. The proposed approach can inform policies and standards such as Advanced Air Mobility to help address supply chain disruptions, reduce transportation costs, and improve healthcare outcomes.