References
- AkçaliE., ÇetinkayaS., & ÜsterH. (2009). Network design for reverse and closed-loop supply chains: An annotated bibliography of models and solution approaches. Networks, 53, 231–248.
- BarrosA. I., DekkerR., & ScholtenV. (1998). A two-level network for recycling sand: A case study. European Journal of Operational Research, 110, 199–214.
- Ben-TalA., El GhaouiL., & NemirovskiA. (2009). Robust optimization. Princeton, NJ: Princeton University Press.
- Ben-TalA., GolanyB., NemirovskiA., & VialJ.-P. (2005). Retailer–supplier flexible commitments contracts: A robust optimization approach. Manufacturing and Service Operations Management, 7(3), 248–271.
- Ben-TalA., & NemirovskiA. (1999). Robust solutions of uncertain linear programs. Operations Research Letters, 25(1), 1–13.
- El-SayedM., AfiaN., & El-KharbotlyA. (2010). A stochastic model for forward–reverse logistics network design under risk. Computers and Industrial Engineering, 58(3), 423–431.
- FleischmannM., BeullensP., Bloemhof-ruwaardJ. M., & WassenhoveL. (2001). The impact of product recovery on logistics network design. Production and Operations Management, 10, 156–173.
- HongI-H., AssavapokeeT., AmmonsJ. C., BoelkinsC., GilliamK., OuditD., … WongthatsanekornW. (2006). Planning the e-scrap reverse production system under uncertainty in the state of Georgia: A case study. IEEE Transactions on Electronics Packaging Manufacturing, 29, 150–162.
- JayaramanV., GuigeV. D. R.Jr, & SrivastavaR. (1999). A closed-loop logistics model for manufacturing. Journal of the Operational Research Society, 50, 497–508.
- KoH. J., & EvansG. W. (2007). A genetic-based heuristic for the dynamic integrated forward/reverse logistics network for 3PLs. Computers & Operations Research, 34, 346–366.
- LeeD.-H., & DongM. (2008). A heuristic approach to logistics network design for end-of-lease computer products recovery. Transportation Research Part E: Logistics and Transportation Review, 44(3), 455–474.
- LeeD.-H., & DongM. (2009). Dynamic network design for reverse logistics operations under uncertainty. Transportation Research Part E: Logistics and Transportation Review, 45(1), 61–71.
- LuZ., & BostelN. (2007). A facility location model for logistics systems including reverse flows: The case of remanufacturing activities. Computers & Operations Research, 34, 299–323.
- MinH., & KoH. J. (2008). The dynamic design of a reverse logistics network from the perspective of third-party logistics service providers. International Journal of Production Economics, 113(1), 176–192.
- PanF., & NagiR. (2010). Robust supply chain design under uncertain demand in agile manufacturing. Computers & Operations Research, 37, 668–683.
- PishvaeeM. S., FarahaniR. Z., & DullaertW. (2010). A memetic algorithm for bi-objective integrated forward/reverse logistics network design. Computers & Operations Research, 37, 1100–1112.
- PishvaeeM. S., RabbaniM., & TorabiS. A. (2011). A robust optimization approach to closed-loop supply chain network design under uncertainty. Applied Mathematical Modelling, 35(2), 637–649.
- RamezaniM., KimiagariA. M., & KarimiB. (2014). Closed-loop supply chain network design: A financial approach. Applied Mathematical Modelling, http://dx.doi.org/10.1016/j.apm.2014.02.004.
- RamezaniM., KimiagariA. M., KarimiB., & HejaziT. H. (2014). Closed-loop supply chain network design under a fuzzy environment. Knowledge-Based Systems, 59, 108–120.
- SalemaM. I. G., Barbosa-PovoaA. P., & NovaisA. Q. (2007). An optimization model for the design of a capacitated multi-product reverse logistics network with uncertainty. European Journal of Operational Research, 179, 1063–1077.
- SalemaM. I., PóvoaA. P. B., & NovaisA. Q. (2006). A warehouse-based design model for reverse logistics. Journal of the Operational Research Society, 57(6), 615–629.
- SinghS. R., PrasherL., & SaxenaN. (2013). A centralized reverse channel structure with flexible manufacturing under the stock out situation. International Journal of Industrial Engineering Computations, 4, 559–570.
- SinghS. R., & SaxenaN. (2013). A closed loop supply chain system with flexible manufacturing and reverse logistics operation under shortages for deteriorating items. Procedia Technology, 10, 330–339.
- ÜsterH., EaswaranG., AkçaliE., & ÇetinkayaS. (2007). Benders decomposition with alternative multiple cuts for a multi-product closed-loop supply chain network design model. Naval Research Logistics, 54, 890–907.
- WangH. F., & HsuW. H. (2010). A closed-loop logistic model with a spanning-tree based genetic algorithm. Computers & Operations Research, 37(2), 376–389.
- ZeballosL. J., MéndezC. A., Barbosa-PovoaA. P., & NovaisA. Q. (2014). Multi-period design and planning of closed-loop supply chains with uncertain supply and demand. Computers & Chemical Engineering, 66, 151–164. http://dx.doi.org/10.1016/j.compchemeng.2014.02.027.