Design of humanitarian supply chain system by applying the general two-stage network DEA model

IF 3.2 Q2 MANAGEMENT
Jae-Dong Hong
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引用次数: 1

Abstract

PurposeThe recent COVID-19 outbreak and severe natural disasters make the design of the humanitarian supply chain network (HSCN) a crucial strategic issue in a pre-disaster scenario. The HSCN design problem deals with the location/allocation of emergency response facilities (ERFs). This paper aims to propose and demonstrate how to design an efficient HSCN configuration under the risk of ERF disruptions.Design/methodology/approachThis paper considers four performance measures simultaneously for the HSCN design by formulating a weighted goal programming (WGP) model. Solving the WGP model with different weight values assigned to each performance measure generates various HSCN configurations. This paper transforms a single-stage network into a general two-stage network, treating each HSCN configuration as a decision-making unit with two inputs and two outputs. Then a two-stage network data envelopment analysis (DEA) approach is applied to evaluate the HSCN schemes for consistently identifying the most efficient network configurations.FindingsAmong various network configurations generated by the WGP, the single-stage DEA model does not consistently identify the top-ranked HSCN schemes. In contrast, the proposed transformation approach identifies efficient HSCN configurations more consistently than the single-stage DEA model. A case study demonstrates that the proposed transformation method could provide a more robust and consistent evaluation for designing efficient HSCN systems. The proposed approach can be an essential tool for federal and local disaster response officials to plan a strategic design of HSCN.Originality/valueThis study presents how to transform a single-stage process into a two-stage network process to apply the general two-stage network DEA model for evaluating various HSCN configurations. The proposed transformation procedure could be extended for designing some supply chain systems with conflicting performance metrics more effectively and efficiently.
应用一般两阶段网络DEA模型设计人道主义供应链系统
近期新冠肺炎疫情和严重自然灾害使人道主义供应链网络的设计成为灾前情景下至关重要的战略问题。HSCN设计问题涉及应急响应设施(erf)的位置/分配。本文旨在提出并演示如何在ERF中断的风险下设计高效的HSCN配置。本文通过建立一个加权目标规划(WGP)模型,同时考虑了HSCN设计的四个性能指标。使用分配给每个性能度量的不同权重值来求解WGP模型会生成各种HSCN配置。本文将单阶段网络转化为一般的两阶段网络,将每个HSCN配置视为具有两个输入和两个输出的决策单元。然后,应用两阶段网络数据包络分析(DEA)方法对HSCN方案进行评估,以一致地确定最有效的网络配置。在WGP生成的各种网络配置中,单阶段DEA模型并不能一致地识别出排名靠前的HSCN方案。相比之下,所提出的转换方法比单阶段DEA模型更一致地识别出有效的HSCN配置。实例研究表明,该方法可以为设计高效的HSCN系统提供更加稳健和一致的评估。拟议的方法可以成为联邦和地方救灾官员规划HSCN战略设计的重要工具。原创性/价值本研究提出如何将单阶段过程转化为两阶段网络过程,以应用通用的两阶段网络DEA模型来评估各种HSCN配置。所提出的转换过程可以扩展到更有效地设计一些具有冲突绩效指标的供应链系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
6.40
自引率
20.00%
发文量
20
期刊介绍: The Journal of Humanitarian Logistics and Supply Chain Management (JHLSCM) is targeted at academics and practitioners in humanitarian public and private sector organizations working on all aspects of humanitarian logistics and supply chain management. The journal promotes the exchange of knowledge, experience and new ideas between researchers and practitioners and encourages a multi-disciplinary and cross-functional approach to the resolution of problems and exploitations of opportunities within humanitarian supply chains. Contributions are encouraged from diverse disciplines (logistics, operations management, process engineering, health care, geography, management science, information technology, ethics, corporate social responsibility, disaster management, development aid, public policy) but need to have a logistics and/or supply chain focus. JHLSCM publishes state of the art research, utilizing both quantitative and qualitative approaches, in the field of humanitarian and development aid logistics and supply chain management.
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