How to cite this paper
Khajavia, L., Seyed-Hosseni, S & Makui, A. (2011). A mathematical model for optimization of an integrated network logistics design.Management Science Letters , 1(4), 415-426.
Refrences
Amiri, A. (2006). Designing a distribution network in a supply chain system: formulation and
efficient solution procedure. European Journal of Operational Research, 171, 567-576.
Aras, N., Aksen, D, & Tanugur, A. G. (2008). Locating collection centers for incentive-dependent
returns under a pick-up policy with capacitated vehicles. European Journal of Operational
Research, 191, 1223-1240.
Demirel, ON. & Gokc-en, H. (2008). A mixed-integer programming model for remanufacturing in
reverse logistics environment. International Journal of Advanced Manufacturing Technology, 39,
1197–1206.
426
Du, F. & Evans, GW. (2008). A bi-objective reverse logistics network analysis for post-sale service.
Computers & Operations Research, 35, 2617–2634.
Fleischmann, M., Beullens, P., Bloemhof-Ruwaard, JM., & Wassenhove, L. (2001). The impact of
product recovery on logistics network design. Production and Operations Management, 10, 156-
173.
Jayaraman, V., Guige, Jr. VDR., & Srivastava, R. (1999). A closed-loop logistics model for
remanufacturing. Journal of the Operational Research Society. 50, 497–508.
Jayaraman V., Patterson, RA., & Rolland, E. (2003). The design of reverse distribution networks:
models and solution procedures. European Journal of Operational Research, 150, 128-149.
Ko, HJ. & Evans, GW. (2007). A genetic-based heuristic for the dynamic integrated forward/reverse
logistics network for 3PLs. Computers & Operations Research, 34, 346-366.
Krikke, HR., VanHarten, A., & Schuur, PC. (1999). Reverse logistic network re-design for copiers.
OR Spektrum, 21, 381-409.
Lee, D. & Dong, M. (2008). A heuristic approach to logistics network design for end-of lease
computer products recovery. Transportation Research Part E, 44, 455-474.
Listes, O. & Dekker, R. (2005). A stochastic approach to a case study for product recovery network
design. European Journal of Operational Research, 160, 268–287.
Lu, Z. & Bostel, N. A. (2007). facility location model for logistics systems including reverse flows:
the case of remanufacturing activities. Computers & Operations Research, 34, 299–323.
Marin, A. & Pelegrin, B. (1998). The return plant location problem: modelling and resolution.
European Journal of Operational Research, 104, 375–392.
Meade, L., Sarkis, J., & Presley A. (2007). The theory and practice of Reverse Logistics.
International Journal of Logistics System Management, 3, 56–84.
Meepetchdee, Y. & Shah, N. (2007). Logistical network design with robustness and complexity
considerations, International Journal of Physical Distribution & Logistics Management, 37, 201–
222.
Min, H. & Ko, H. 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,
176–192.
Min, H., Ko, C. S., & Ko, H. J. (2006). The spatial and temporal consolidation of returned products
in a closed-loop supply chain network . Computers & Industrial Engineering, 51, 309–320.
Miranda, P. A. & Garrido, R. A. (2004). Incorporating inventory control decisions into a strategic
distribution network design model with stochastic demand. Transportation Research Part E, 40,
183–207.
Pishvaee, M. S., Farahani, R. Z., & Dullaert, W. (2010). A memetic algorithm for bi-objective
integrated forward/reverse logistics network design, Computer Operation Research, 37, 1100–
1112.
Patia, R. K., Vratb, P., & Kumarc, P. (2008). A goal programming model for paper recycling system.
Omega, 36,405-417.
Salema, M. I. G., Barbosa-Povoa, A. P., & Novais, A. 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.
Salema, M. I., Povoa, A. P. B., & Novais, A. Q. (2006). warehouse-based design model for reverse
logistics. Journal of the Operational Research Society, 57, 615–629.
Sung, C. S. & Song, S. H. (2003). Integrated service network design for a cross-docking supply chain
network. Journal of the Operational Research Society, 54, 1283-1295.
Tsiakis, P. & Papageorgiou, L. G. (2008). Optimal production allocation and distribution supply
chain network s. International Journal of Production Economics, 111, 468– 483.
Uster, H., Easwaran, G., Akçali, E., & Cetinkaya, S. (2007). Benders decomposition with alternative
multiple cuts for a multi-product closed-loop supply chain network design model. Naval Reveres
Logistics, 54, 890 –907.
efficient solution procedure. European Journal of Operational Research, 171, 567-576.
Aras, N., Aksen, D, & Tanugur, A. G. (2008). Locating collection centers for incentive-dependent
returns under a pick-up policy with capacitated vehicles. European Journal of Operational
Research, 191, 1223-1240.
Demirel, ON. & Gokc-en, H. (2008). A mixed-integer programming model for remanufacturing in
reverse logistics environment. International Journal of Advanced Manufacturing Technology, 39,
1197–1206.
426
Du, F. & Evans, GW. (2008). A bi-objective reverse logistics network analysis for post-sale service.
Computers & Operations Research, 35, 2617–2634.
Fleischmann, M., Beullens, P., Bloemhof-Ruwaard, JM., & Wassenhove, L. (2001). The impact of
product recovery on logistics network design. Production and Operations Management, 10, 156-
173.
Jayaraman, V., Guige, Jr. VDR., & Srivastava, R. (1999). A closed-loop logistics model for
remanufacturing. Journal of the Operational Research Society. 50, 497–508.
Jayaraman V., Patterson, RA., & Rolland, E. (2003). The design of reverse distribution networks:
models and solution procedures. European Journal of Operational Research, 150, 128-149.
Ko, HJ. & Evans, GW. (2007). A genetic-based heuristic for the dynamic integrated forward/reverse
logistics network for 3PLs. Computers & Operations Research, 34, 346-366.
Krikke, HR., VanHarten, A., & Schuur, PC. (1999). Reverse logistic network re-design for copiers.
OR Spektrum, 21, 381-409.
Lee, D. & Dong, M. (2008). A heuristic approach to logistics network design for end-of lease
computer products recovery. Transportation Research Part E, 44, 455-474.
Listes, O. & Dekker, R. (2005). A stochastic approach to a case study for product recovery network
design. European Journal of Operational Research, 160, 268–287.
Lu, Z. & Bostel, N. A. (2007). facility location model for logistics systems including reverse flows:
the case of remanufacturing activities. Computers & Operations Research, 34, 299–323.
Marin, A. & Pelegrin, B. (1998). The return plant location problem: modelling and resolution.
European Journal of Operational Research, 104, 375–392.
Meade, L., Sarkis, J., & Presley A. (2007). The theory and practice of Reverse Logistics.
International Journal of Logistics System Management, 3, 56–84.
Meepetchdee, Y. & Shah, N. (2007). Logistical network design with robustness and complexity
considerations, International Journal of Physical Distribution & Logistics Management, 37, 201–
222.
Min, H. & Ko, H. 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,
176–192.
Min, H., Ko, C. S., & Ko, H. J. (2006). The spatial and temporal consolidation of returned products
in a closed-loop supply chain network . Computers & Industrial Engineering, 51, 309–320.
Miranda, P. A. & Garrido, R. A. (2004). Incorporating inventory control decisions into a strategic
distribution network design model with stochastic demand. Transportation Research Part E, 40,
183–207.
Pishvaee, M. S., Farahani, R. Z., & Dullaert, W. (2010). A memetic algorithm for bi-objective
integrated forward/reverse logistics network design, Computer Operation Research, 37, 1100–
1112.
Patia, R. K., Vratb, P., & Kumarc, P. (2008). A goal programming model for paper recycling system.
Omega, 36,405-417.
Salema, M. I. G., Barbosa-Povoa, A. P., & Novais, A. 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.
Salema, M. I., Povoa, A. P. B., & Novais, A. Q. (2006). warehouse-based design model for reverse
logistics. Journal of the Operational Research Society, 57, 615–629.
Sung, C. S. & Song, S. H. (2003). Integrated service network design for a cross-docking supply chain
network. Journal of the Operational Research Society, 54, 1283-1295.
Tsiakis, P. & Papageorgiou, L. G. (2008). Optimal production allocation and distribution supply
chain network s. International Journal of Production Economics, 111, 468– 483.
Uster, H., Easwaran, G., Akçali, E., & Cetinkaya, S. (2007). Benders decomposition with alternative
multiple cuts for a multi-product closed-loop supply chain network design model. Naval Reveres
Logistics, 54, 890 –907.