灰需求下考虑设施中断风险缓解的供应链网络设计
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摘要
针对分销中心中断的不确定,考虑了可靠分销中心和不可靠分销中心两种设施,不可靠分销中心受到干扰后会损失其部分或全部能力,该部分能力损失可由可靠分销中心使用转运策略补足。采用lingo软件求解模型并进行敏感性分析,以探索模型的适用性和有效性。
In this paper, in view of the uncertainty of distribution center disruption, we studied the facilities of a reliable distribution center and an unreliable distribution center respectively, where, after being disturbed, the unreliable distribution center would lose part or all of its capacity, which could be compensated by the reliable distribution center using the transshipment strategy. Next, we used Lingo to solve the model and had a sensitivity analysis to explore its applicability and effectiveness.
In this paper, in view of the uncertainty of distribution center disruption, we studied the facilities of a reliable distribution center and an unreliable distribution center respectively, where, after being disturbed, the unreliable distribution center would lose part or all of its capacity, which could be compensated by the reliable distribution center using the transshipment strategy. Next, we used Lingo to solve the model and had a sensitivity analysis to explore its applicability and effectiveness.
引文
[1]田俊峰,杨梅,岳劲峰.具有遗憾值约束的鲁棒供应链网络设计模型研究[J].管理工程学报,2012,26(1):48-55.
[2]关志民,陶瑾.考虑风险规避行为的弹性供应链网络集成优化[J].工业工程,2015,(4):49-57.
[3]赵广华,刘佳怡.需求不确定条件下生鲜农产品供应链网络设计[J].物流技术,2017,36(10):109-113.
[4]Mari S I,Lee Y H,Memon M S Sustainable and Resilient Garment Supply Chain Network Design with Fuzzy Multi-Objectives under Uncertainty[J].Sustainability,2016,8(10):1 038.
[5]Hatefi S M,Jolai F,Torabi S A,et al.A credibility-constrained programming for reliable forwarda-reverse logistics network design under uncertainty and facility disruptions[J].International Journal of Computer Integrated Manufacturing,2015,28(6):664-678.
[6]Li Q,Zeng B,Savachkin A.Reliable facility location design under disruptions[M].Elsevier Science Ltd,2013.
[7]Meena P L,Sarmah S P.Multiple sourcing under supplier failure risk and quantity discount:A genetic algorithm approach[J].Transportation Research Part E,2013,50(50):84-97.
[8]Torabi S A,Baghersad M,Mansouri S A.Resilient supplier selection and order allocation under operational and disruption risks[J].Transportation Research Part E Logistics&Transportation Review,2015,79:22-48.
[9]刘希龙,季建华.基于多源供应的弹性供应网络研究[J].工业工程与管理,2007,12(3):8-12.
[10]卢梦飞,陈伟炯,梁承姬.缓解中断风险的应急供应链网络鲁棒优化[J].合肥:合肥工业大学学报:自然科学版,2015,(10):1 417-1 423.
[11]季苗,王海燕.考虑混合不确定设施节点的可靠供应链网络随机优化模型[J].物流技术,2016,35(4):134-138.
[12]于佳.灰色环境下的逆向物流网络优化设计[D].马鞍山:安徽工业大学,2011.
[2]关志民,陶瑾.考虑风险规避行为的弹性供应链网络集成优化[J].工业工程,2015,(4):49-57.
[3]赵广华,刘佳怡.需求不确定条件下生鲜农产品供应链网络设计[J].物流技术,2017,36(10):109-113.
[4]Mari S I,Lee Y H,Memon M S Sustainable and Resilient Garment Supply Chain Network Design with Fuzzy Multi-Objectives under Uncertainty[J].Sustainability,2016,8(10):1 038.
[5]Hatefi S M,Jolai F,Torabi S A,et al.A credibility-constrained programming for reliable forwarda-reverse logistics network design under uncertainty and facility disruptions[J].International Journal of Computer Integrated Manufacturing,2015,28(6):664-678.
[6]Li Q,Zeng B,Savachkin A.Reliable facility location design under disruptions[M].Elsevier Science Ltd,2013.
[7]Meena P L,Sarmah S P.Multiple sourcing under supplier failure risk and quantity discount:A genetic algorithm approach[J].Transportation Research Part E,2013,50(50):84-97.
[8]Torabi S A,Baghersad M,Mansouri S A.Resilient supplier selection and order allocation under operational and disruption risks[J].Transportation Research Part E Logistics&Transportation Review,2015,79:22-48.
[9]刘希龙,季建华.基于多源供应的弹性供应网络研究[J].工业工程与管理,2007,12(3):8-12.
[10]卢梦飞,陈伟炯,梁承姬.缓解中断风险的应急供应链网络鲁棒优化[J].合肥:合肥工业大学学报:自然科学版,2015,(10):1 417-1 423.
[11]季苗,王海燕.考虑混合不确定设施节点的可靠供应链网络随机优化模型[J].物流技术,2016,35(4):134-138.
[12]于佳.灰色环境下的逆向物流网络优化设计[D].马鞍山:安徽工业大学,2011.