How to cite this paper
Yazdian, S & Shahanaghi, K. (2011). A multi-objective possibilistic programming approach for locating distribution centers and allocating customers demands in supply chains.International Journal of Industrial Engineering Computations , 2(1), 193-202.
Refrences
Aikens, C.H. (1985). Facility location models for distribution planning. European Journal of Operational Research, 22, 263–279.
Amiri, A. (2006). Designing a distribution network in a supply chain system: formulation and solution procedure. European Journal of Operational Research, 171, 567–576.
Bhattacharya, U., Rao, J. R. & R.N. Tiwari. (1992). Fuzzy multi-criteria facility location problem. Fuzzy Sets and Systems, 51, 277–287.
Brimberg, J., Hansen, P., Mladenovic, N. & Taillard, E. D., (2000). Improvements and comparison of heuristics for solving the uncapacitated multisource Weber problem. Operations Research, 48(3), 444–460.
Darzentas, J. (1987). A discrete location model with fuzzy accessibility measures. Fuzzy Sets and Systems, 23, 149–154.
Hindi, K.S. & Basta, T. (1994). Computationally efficient solution of a multi-product, two-stage distribution-location problem. Journal of Operations Research Society, 45, 1316–1323.
Hwang, H.S. (2002). Design of supply-chain logistics system considering service level. Computers & Industrial Engineering, 43, 283–297.
Jayaraman, V. & Pirkul., H. (2001) Planning and coordination of production and distribution facilities for multiple commodities. European Journal of Operational Research, 133, 394–408.
Kaufman, L., Eede, M. V. & P. Hansen. (1977). A plant and warehouse location problem, Operations Research Quarterly, 28(3), 547–554.
Keskin, B.B. & Uster, H. (2007). Meta-heuristic approaches with memory and evolution for a multi-product production/distribution system design problem. European Journal of Operational Research, 182, 663–682.
Klose, A. & Drexl, A. (2005) Facility location models for distribution system design. European Journal of Operational Research, 162, 4–29.
Kuehn, A.A. & Hamburger, M. J. (1963). A heuristic program for warehouse location problem. Management Science, 9, 643–666.
Lee, C.Y. (1991). An optimal algorithm for the multiproduct, capacitated facility location problem with a choice of facility type. Computers and Operations Research, 18(2), 167–182.
Logendran, R. & Terrell, M. P. (1988). Uncapacitated plant location–allocation problems with price sensitive stochastic demands. Computers and Operations Research, 15(2), 189–198.
Lu, Z. & Bostel, N. (2007). A facility location model for logistics systems including reverse flows: The case of remanufacturing activities. Computers & Operations Research, 34, 299–323.
Marín, A. & Pelegrin, B. (1999). Applying Lagrangian relaxation to the resolution of two stage location problems. Annals of Operations Research, 86, 179–198.
Melo, M.T., Nickel, S. & Saldanha-da-Gama, F.(2009). Facility location and supply chain management – A review. European Journal of Operational Research, 196, 401–412.
Miranda, P.A. & Garrido, R. A. (2008). Valid inequalities for Lagrangian relaxation in an inventory location problem with stochastic capacity. Transportation Research Part E: Logistics and Transportation Review, 44, 47–65.
Negi, D.S. & Lee, E. S. (1993). Possibility programming by the comparison of fuzzy numbers. Computers and Mathematics with Applications, 25, 43–50.
Owen S.H. & Daskin, M. S. (1998). Strategic facility location: a review. European Journal of Operational Research, 111, 423–447.
Pirkul, H. & Jayaraman, V. (1998). A multi-commodity, multi-plant, capacitated facility location problem: Formulation and efficient heuristic solution. Computers and Operations Research, 25, 869–878.
Pirkul, H. & Jayaraman, V. (1996). Production, transportation, and distribution planning in a multi-commodity tri-echelon system. Transportation Science, 30(4), 291–302.
Rao, J.R. & Saraswati, K. (1988). Facility location problem on network under multiple criteria fuzzy set theoretic approach. International Journal of Systems Science, 19(12), 2555–2559.
Ro, H. & Tcha, D. (1984) A branch-and-bound algorithm for the two-level uncapacitated facility location problem. European Journal of Operational Research, 18, 349–358.
Sherali, H.D. & Rizzo, T. P. (1991). Unbalanced, capacitated p-median problems on a chain graph with a continuum of link demands. Networks, 21(2), 133–163.
Tragantalerngsak, S., Holt, J. & Ronnqvist, M. (2000). An exact method for the two-echelon, single source, capacitated facility location problem. European Journal of Operational Research, 123, 473–489.
Zadeh, L.A. (1965). Fuzzy sets. Information and Control, 8, 338–353.
Zhou, J. & Liu, B. (2007). Modeling capacitated location-allocation problem with fuzzy demands. Computers and Industrial Engineering, 53, 454–468.
Amiri, A. (2006). Designing a distribution network in a supply chain system: formulation and solution procedure. European Journal of Operational Research, 171, 567–576.
Bhattacharya, U., Rao, J. R. & R.N. Tiwari. (1992). Fuzzy multi-criteria facility location problem. Fuzzy Sets and Systems, 51, 277–287.
Brimberg, J., Hansen, P., Mladenovic, N. & Taillard, E. D., (2000). Improvements and comparison of heuristics for solving the uncapacitated multisource Weber problem. Operations Research, 48(3), 444–460.
Darzentas, J. (1987). A discrete location model with fuzzy accessibility measures. Fuzzy Sets and Systems, 23, 149–154.
Hindi, K.S. & Basta, T. (1994). Computationally efficient solution of a multi-product, two-stage distribution-location problem. Journal of Operations Research Society, 45, 1316–1323.
Hwang, H.S. (2002). Design of supply-chain logistics system considering service level. Computers & Industrial Engineering, 43, 283–297.
Jayaraman, V. & Pirkul., H. (2001) Planning and coordination of production and distribution facilities for multiple commodities. European Journal of Operational Research, 133, 394–408.
Kaufman, L., Eede, M. V. & P. Hansen. (1977). A plant and warehouse location problem, Operations Research Quarterly, 28(3), 547–554.
Keskin, B.B. & Uster, H. (2007). Meta-heuristic approaches with memory and evolution for a multi-product production/distribution system design problem. European Journal of Operational Research, 182, 663–682.
Klose, A. & Drexl, A. (2005) Facility location models for distribution system design. European Journal of Operational Research, 162, 4–29.
Kuehn, A.A. & Hamburger, M. J. (1963). A heuristic program for warehouse location problem. Management Science, 9, 643–666.
Lee, C.Y. (1991). An optimal algorithm for the multiproduct, capacitated facility location problem with a choice of facility type. Computers and Operations Research, 18(2), 167–182.
Logendran, R. & Terrell, M. P. (1988). Uncapacitated plant location–allocation problems with price sensitive stochastic demands. Computers and Operations Research, 15(2), 189–198.
Lu, Z. & Bostel, N. (2007). A facility location model for logistics systems including reverse flows: The case of remanufacturing activities. Computers & Operations Research, 34, 299–323.
Marín, A. & Pelegrin, B. (1999). Applying Lagrangian relaxation to the resolution of two stage location problems. Annals of Operations Research, 86, 179–198.
Melo, M.T., Nickel, S. & Saldanha-da-Gama, F.(2009). Facility location and supply chain management – A review. European Journal of Operational Research, 196, 401–412.
Miranda, P.A. & Garrido, R. A. (2008). Valid inequalities for Lagrangian relaxation in an inventory location problem with stochastic capacity. Transportation Research Part E: Logistics and Transportation Review, 44, 47–65.
Negi, D.S. & Lee, E. S. (1993). Possibility programming by the comparison of fuzzy numbers. Computers and Mathematics with Applications, 25, 43–50.
Owen S.H. & Daskin, M. S. (1998). Strategic facility location: a review. European Journal of Operational Research, 111, 423–447.
Pirkul, H. & Jayaraman, V. (1998). A multi-commodity, multi-plant, capacitated facility location problem: Formulation and efficient heuristic solution. Computers and Operations Research, 25, 869–878.
Pirkul, H. & Jayaraman, V. (1996). Production, transportation, and distribution planning in a multi-commodity tri-echelon system. Transportation Science, 30(4), 291–302.
Rao, J.R. & Saraswati, K. (1988). Facility location problem on network under multiple criteria fuzzy set theoretic approach. International Journal of Systems Science, 19(12), 2555–2559.
Ro, H. & Tcha, D. (1984) A branch-and-bound algorithm for the two-level uncapacitated facility location problem. European Journal of Operational Research, 18, 349–358.
Sherali, H.D. & Rizzo, T. P. (1991). Unbalanced, capacitated p-median problems on a chain graph with a continuum of link demands. Networks, 21(2), 133–163.
Tragantalerngsak, S., Holt, J. & Ronnqvist, M. (2000). An exact method for the two-echelon, single source, capacitated facility location problem. European Journal of Operational Research, 123, 473–489.
Zadeh, L.A. (1965). Fuzzy sets. Information and Control, 8, 338–353.
Zhou, J. & Liu, B. (2007). Modeling capacitated location-allocation problem with fuzzy demands. Computers and Industrial Engineering, 53, 454–468.