Robust closed-loop global supply chain network design under uncertainty: the case of the medical device industry

Improving performance of global supply chains requires careful consideration of various factors including distance from markets, access to resources, exchange and tax rates, import tariffs, and trade regulations. In this paper, a comprehensive optimization model is proposed to maximise the after-tax...

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Veröffentlicht in:	International journal of production research 2015-03, Vol.53 (5), p.1596-1624
Hauptverfasser:	Hasani, Aliakbar, Zegordi, Seyed Hessameddin, Nikbakhsh, Ehsan
Format:	Artikel
Sprache:	eng
Schlagworte:	adaptive variable neighbourhood search Defective products Economic models Economic policy Economics Exchange Genetic algorithms global supply chain network design green supply chain management Heuristic Imports Medical devices Medical equipment Medical technology memetic algorithm Optimization Regulations robust optimization Searching Studies Supply chain management Supply chains Tariffs Tax rates Transfer pricing Uncertainty
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container_title	International journal of production research
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creator	Hasani, Aliakbar Zegordi, Seyed Hessameddin Nikbakhsh, Ehsan
description	Improving performance of global supply chains requires careful consideration of various factors including distance from markets, access to resources, exchange and tax rates, import tariffs, and trade regulations. In this paper, a comprehensive optimization model is proposed to maximise the after-tax profit of a closed-loop global supply chain for medical devices under uncertainty. The uncertainty of the decision-making environment is modelled using the budget of uncertainty concept in interval robust optimization. International financial issues due to the Economic Cooperation Organisation Trade Agreement as well as national regulations including transfer pricing limitations, exchange rates, tax rates, and import tariffs are considered. The proposed model considers various realistic assumptions pertaining to medical device supply chains such as multiple products, multiple periods, multiple echelons, and limited warehousing lifetime. In addition, reverse flows of perished and defective products are considered to address environmental concerns and customers' requirements as well as to gain economic advantages. To tackle this problem, an efficient memetic algorithm is developed that incorporates adaptive variable neighbourhood search as its local search heuristic. Computational results demonstrate the efficiency of the proposed model in dealing with uncertainty in an agile manufacturing context. In addition, several managerial insights are discussed based on the results.
doi_str_mv	10.1080/00207543.2014.965349
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subjects	adaptive variable neighbourhood search Defective products Economic models Economic policy Economics Exchange Genetic algorithms global supply chain network design green supply chain management Heuristic Imports Medical devices Medical equipment Medical technology memetic algorithm Optimization Regulations robust optimization Searching Studies Supply chain management Supply chains Tariffs Tax rates Transfer pricing Uncertainty
title	Robust closed-loop global supply chain network design under uncertainty: the case of the medical device industry
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