利用物联网进行救援供应链管理以应对新冠疫情。

Relief Supply Chain Management Using Internet of Things to Address COVID-19 Outbreak.

作者信息

Salehi-Amiri Amirhossein, Jabbarzadeh Armin, Zahedi Ali, Akbarpour Navid, Hajiaghaei-Keshteli Mostafa

机构信息

Engineering Department, École de technologie supérieure (ETS), Montreal, Canada.

Tecnologico de Monterrey, Escuela de Ingeniería y Ciencias, Puebla, Mexico.

出版信息

Comput Ind Eng. 2021 May 28:107429. doi: 10.1016/j.cie.2021.107429.

DOI:10.1016/j.cie.2021.107429

PMID:34075271

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8159708/

Abstract

Nowadays, due to the COVID-19 outbreak, the most significant factor to be considered all over the world is to manage this pandemic and especially to address positive cases, efficiently and effectively. This can be achieved by simultaneously utilizing the present network with supply chain settings and also the Internet of Things (IoT). This consideration enables the accurate monitoring of suspected cases in real-time to optimize total service time. Hence, this paper firstly designs two sub-models to minimize distance and traffic while minimizing total response time. Our main contribution in this paper is to develop a dynamic scheme using IoT to deal with suspected cases. We also investigate the proposed methodology on a real case problem in Canada. A comprehensive analysis of the proposed methodology behavior has been conducted and the results showed the managerial decision-making process to address COVID-19 patients. The proposed approach establishes efficient strategies to identify suspicious COVID-19 cases and provide them with medical observance in a short time when utilized with IoT. The obtained results of the considered scenarios show 12% up to 15% improvement in the ambulance response time when using IoT.

摘要

如今，由于新冠疫情的爆发，全球范围内需要考虑的最重要因素是有效且高效地应对这一疫情大流行，尤其是处理阳性病例。这可以通过同时利用现有的供应链网络设置以及物联网（IoT）来实现。这种考虑能够实时准确地监测疑似病例，以优化总服务时间。因此，本文首先设计了两个子模型，在最小化总响应时间的同时，使距离和交通流量最小化。本文的主要贡献在于开发一种利用物联网处理疑似病例的动态方案。我们还在加拿大的一个实际案例问题上研究了所提出的方法。对所提出方法的行为进行了全面分析，结果展示了应对新冠患者的管理决策过程。所提出的方法建立了有效的策略，用于识别可疑的新冠病例，并在与物联网结合使用时，在短时间内为其提供医疗监护。所考虑场景的结果表明，使用物联网时，救护车响应时间可提高12%至15%。

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