Reliable blood supply chain network design with facility disruption: A real-world application

The blood supply of hospitals in disasters is a crucial issue in supply chain management. In this paper, a dynamic robust location–allocation model is presented for designing a blood supply chain network under facility disruption risks and uncertainty in a disaster situation. A scenario-based robust...

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Veröffentlicht in:	Engineering applications of artificial intelligence 2020-04, Vol.90, p.103493, Article 103493
Hauptverfasser:	Haghjoo, Nazanin, Tavakkoli-Moghaddam, Reza, Shahmoradi-Moghadam, Hani, Rahimi, Yaser
Format:	Artikel
Sprache:	eng
Schlagworte:	Blood supply chain network Computer Science Disruption risks and disaster Location–allocation analysis Logistics Performance analysis Robust optimization
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container_title	Engineering applications of artificial intelligence
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creator	Haghjoo, Nazanin Tavakkoli-Moghaddam, Reza Shahmoradi-Moghadam, Hani Rahimi, Yaser
description	The blood supply of hospitals in disasters is a crucial issue in supply chain management. In this paper, a dynamic robust location–allocation model is presented for designing a blood supply chain network under facility disruption risks and uncertainty in a disaster situation. A scenario-based robust approach is adapted to the model to tackle the inherent uncertainty of the problem, such as a great deal of a periodic variation in demands and facilities disruptions. It is considered that the effect of disruption in facilities depends on the initial investment level for opening them, which are affected by the allocated budget. The usage of the model is implemented by a real-world case example that addresses the demand and disruption probability as uncertain parameters. For large-scale problems, two meta-heuristic algorithms, namely the self-adaptive imperialist competitive algorithm and invasive weed optimization, are presented to solve the model. Furthermore, several numerical examples of managerial insights are evaluated. [Display omitted] •Presenting a new robust multi-period model for a blood supply chain in disaster.•Considering the disruption and facilities’ failure after the disaster.•Considering the investment level and the allocated budget for the facility.•Examining uncertainty concept in some basic parameters of the problem.•Applying the SAICA and comparing it with the IWO algorithm.•Considering a case study for evaluating the application of the proposed model.
doi_str_mv	10.1016/j.engappai.2020.103493
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subjects	Blood supply chain network Computer Science Disruption risks and disaster Location–allocation analysis Logistics Performance analysis Robust optimization
title	Reliable blood supply chain network design with facility disruption: A real-world application
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