How to cite this paper
Nezhad, A., Roghanian, E & Azadi, Z. (2013). A fuzzy goal programming approach to solve multi-objective supply chain network design problems.International Journal of Industrial Engineering Computations , 4(3), 315-324.
Refrences
Beamon, B. M., & Fernandes, C. (2004). Supply-chain network configuration for product recovery. Production Planning & Control, 15(3), 270-281.
Chen, L. H., & Tsai, F. C. (2001). Fuzzy goal programming with different importance and priorities. European Journal of Operational Research, 133(3), 548-556.
Cohen, M. A., & Lee, H. L. (1988). Strategic analysis of integrated production-distribution systems: models and methods. Operations Research, 36(2), 216-228.
Geoffrion, A. M., & Graves, G. W. (1974). Multicommodity distribution system design by Benders decomposition. Management science, 20(5), 822-844.
Giannoccaro, I., Pontrandolfo, P., & Scozzi, B. (2003). A fuzzy echelon approach for inventory management in supply chains. European Journal of Operational Research, 149(1), 185-196.
Guiffrida, A. L., & Nagi, R. (1998). Fuzzy set theory applications in production management research: a literature survey. Journal of intelligent manufacturing,9(1), 39-56.
Selim, H., & Ozkarahan, I. (2008). A supply chain distribution network design model: An interactive fuzzy goal programming-based solution approach, International Journal of Advanced Manufacturing Technology, 36,401–418.
Hannan, E. L. (1981). ON FUZZY GOAL PROGRAMMING*. Decision Sciences, 12(3), 522-531.
Inderfurth, K., de Kok, A. G., & Flapper, S. D. P. (2001). Product recovery in stochastic remanufacturing systems with multiple reuse options. European Journal of Operational Research, 133(1), 130-152.
Jayaraman, V., & Pirkul, H. (2001). Planning and coordination of production and distribution facilities for multiple commodities. European journal of operational research, 133(2), 394-408.
Lai, Y. J., & Hwang, C. L. (1994). Fuzzy Multiple Objective Decision Making: Methods and Applications.
Liste?, O., & Dekker, R. (2005). A stochastic approach to a case study for product recovery network design. European Journal of Operational Research, 160(1), 268-287.
Mohamed, R. H. (1997). The relationship between goal programming and fuzzy programming. Fuzzy Sets and Systems, 89(2), 215-222.
Narasimhan, R. (1980). Goal programming in a fuzzy environment. Decision sciences, 11(2), 325-336.
Peidro, D., Mula, J., Poler, R., & Verdegay, J. L. (2009). Fuzzy optimization for supply chain planning under supply, demand and process uncertainties. Fuzzy Sets and Systems, 160(18), 2640-2657.
Pishvaee, M. S., & Razmi, J. (2012). Environmental supply chain network design using multi-objective fuzzy mathematical programming. Applied Mathematical Modelling, 36(8), 3433-3446.
Qin, Z., & Ji, X. (2010). Logistics network design for product recovery in fuzzy environment. European Journal of Operational Research, 202(2), 479-490.
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(3), 1063-1077.
Santoso, T., Ahmed, S., Goetschalckx, M., & Shapiro, A. (2005). A stochastic programming approach for supply chain network design under uncertainty. European Journal of Operational Research, 167(1), 96-115.
Simchi-Levi, D., Simchi-Levi, E., & Kaminsky, P. (1999). Designing and managing the supply chain: Concepts, strategies, and cases. United-States: McGraw-Hill.
Tragantalerngsak, S., Holt, J., & R?nnqvist, M. (2000). An exact method for the two-echelon, single-source, capacitated facility location problem. European Journal of Operational Research, 123(3), 473-489.
Yang, L., Ji, X., Gao, Z., & Li, K. (2007). Logistics distribution centers location problem and algorithm under fuzzy environment. Journal of Computational and Applied Mathematics, 208(2), 303-315.
Zimmermann, H. J. (1978). Fuzzy programming and linear programming with several objective functions. Fuzzy sets and systems, 1(1), 45-55.
Chen, L. H., & Tsai, F. C. (2001). Fuzzy goal programming with different importance and priorities. European Journal of Operational Research, 133(3), 548-556.
Cohen, M. A., & Lee, H. L. (1988). Strategic analysis of integrated production-distribution systems: models and methods. Operations Research, 36(2), 216-228.
Geoffrion, A. M., & Graves, G. W. (1974). Multicommodity distribution system design by Benders decomposition. Management science, 20(5), 822-844.
Giannoccaro, I., Pontrandolfo, P., & Scozzi, B. (2003). A fuzzy echelon approach for inventory management in supply chains. European Journal of Operational Research, 149(1), 185-196.
Guiffrida, A. L., & Nagi, R. (1998). Fuzzy set theory applications in production management research: a literature survey. Journal of intelligent manufacturing,9(1), 39-56.
Selim, H., & Ozkarahan, I. (2008). A supply chain distribution network design model: An interactive fuzzy goal programming-based solution approach, International Journal of Advanced Manufacturing Technology, 36,401–418.
Hannan, E. L. (1981). ON FUZZY GOAL PROGRAMMING*. Decision Sciences, 12(3), 522-531.
Inderfurth, K., de Kok, A. G., & Flapper, S. D. P. (2001). Product recovery in stochastic remanufacturing systems with multiple reuse options. European Journal of Operational Research, 133(1), 130-152.
Jayaraman, V., & Pirkul, H. (2001). Planning and coordination of production and distribution facilities for multiple commodities. European journal of operational research, 133(2), 394-408.
Lai, Y. J., & Hwang, C. L. (1994). Fuzzy Multiple Objective Decision Making: Methods and Applications.
Liste?, O., & Dekker, R. (2005). A stochastic approach to a case study for product recovery network design. European Journal of Operational Research, 160(1), 268-287.
Mohamed, R. H. (1997). The relationship between goal programming and fuzzy programming. Fuzzy Sets and Systems, 89(2), 215-222.
Narasimhan, R. (1980). Goal programming in a fuzzy environment. Decision sciences, 11(2), 325-336.
Peidro, D., Mula, J., Poler, R., & Verdegay, J. L. (2009). Fuzzy optimization for supply chain planning under supply, demand and process uncertainties. Fuzzy Sets and Systems, 160(18), 2640-2657.
Pishvaee, M. S., & Razmi, J. (2012). Environmental supply chain network design using multi-objective fuzzy mathematical programming. Applied Mathematical Modelling, 36(8), 3433-3446.
Qin, Z., & Ji, X. (2010). Logistics network design for product recovery in fuzzy environment. European Journal of Operational Research, 202(2), 479-490.
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(3), 1063-1077.
Santoso, T., Ahmed, S., Goetschalckx, M., & Shapiro, A. (2005). A stochastic programming approach for supply chain network design under uncertainty. European Journal of Operational Research, 167(1), 96-115.
Simchi-Levi, D., Simchi-Levi, E., & Kaminsky, P. (1999). Designing and managing the supply chain: Concepts, strategies, and cases. United-States: McGraw-Hill.
Tragantalerngsak, S., Holt, J., & R?nnqvist, M. (2000). An exact method for the two-echelon, single-source, capacitated facility location problem. European Journal of Operational Research, 123(3), 473-489.
Yang, L., Ji, X., Gao, Z., & Li, K. (2007). Logistics distribution centers location problem and algorithm under fuzzy environment. Journal of Computational and Applied Mathematics, 208(2), 303-315.
Zimmermann, H. J. (1978). Fuzzy programming and linear programming with several objective functions. Fuzzy sets and systems, 1(1), 45-55.