A supply chain distribution network design model: An interactive fuzzy goal programming-based solution approach

Pirkul H, Jayaraman V (1998) A multi-commodity, multi-plant, capacitated facility location problem: formulation and efficient heuristic solution. Comput Oper Res 25(10):869–878

Jang Y-J, Jang S-Y, Chang B-Y, Park J (2002) A combined model of network design and production/distribution planning for a supply network. Comput Ind Eng 43:263–281

Chopra S, Meindl P (2001) Supply chain management. Prentice Hall, Upper Saddle River, NJ

Church RL, Revelle C (1974) The maximal covering location problem. Pap Reg Sci Assoc 32:101–118

Zadeh LA (1965) Fuzzy sets. Inform Control 8:338–353

Petrovic D, Roy R, Petrovic R (1999) Modeling and simulation of a supply chain in an uncertain environment. Eur J Oper Res 109:299–309

Reznik L, Pham B (2001) Fuzzy models in evaluation of information uncertainty in engineering and technology applications. Proceedings of the 10th IEEE International Conference on Fuzzy Systems, Melbourne, Austraila, pp 972–975

Francis RL, Mcginnis LF, White JA (1983) Locational analysis. Eur J Oper Res 12:220–252

Aikens CH (1985) Facility location models for distribution planning. Eur J Oper Res 22:263–279

Brandeau ML, Chiu SS (1989) An overview of representative problems in location research. Manage Sci 35:645–674

Beamon BM (1998) Supply chain design and analysis: models and methods. Int J Prod Econ 55:281–294

Avella P et al (1998) Some personal views on the current state and the future of locational analysis. Eur J Oper Res 104:269–287

Pontrandolfo P, Okogbaa OG (1999) Global manufacturing: a review and a framework for planning in a global corporation. Int J Prod Res 37(1):1–19

Meixell MJ, Gargeya VB (2005) Global supply chain design: a literature review and critique. Transport Res E-Log 41:531–550

Geoffrion AM, Graves GW (1974) Multicommodity distribution system design by benders decomposition. Manage Sci 20(5):822–844

Brown GG, Graves GW, Honczarenko MD (1987) Design and operation of a multicommodity production/distribution system using primal goal decomposition. Manage Sci 33(11):1469–1480

Cohen MA, Lee HL (1988) Strategic analysis of integrated production-distribution systems: models and methods. Oper Res 36:216–228

Pirkul H, Jayaraman V (1996) Production, transportation, and distribution planning in a multi-commodity tri-echelon system. Transport Sci 30:291–302

Jayaraman V (1998) An efficient heuristic procedure for practical-sized capacitated warehouse design and management. Decision Sci 29:729–745

Dogan K, Goetschalckx M (1999) A primal decomposition method for the integrated design of multi-period production and distribution system. IIE Trans 31:1027–1036

Tragantalerngsak S, Holt J, Ronnqvist M (2000) An exact method for the two-echelon, single-source, capacitated facility location problem. Eur J Oper Res 123:473–489

Lee HK, Lee I-B, Reklaitis GV (2000) Capacity expansion problem of multisite batch plants with production and distribution. Comput Chem Eng 24:1597–1602

Melachrinodis E, Min H (2000) The dynamic relocation and phase-out of a hybrid, two-echelon plant/warehousing facility: a multiple objective approach. Eur J Oper Res 123(1):1–15

Sabri EH, Beamon BM (2000) A multi-objective approach to simultaneous strategic and operational planning in sc design. Omega 28:581–598

Pirkul H, Jayaraman V (2001) Planning and coordination of production and distribution facilities for multiple commodities. Eur J Oper Res 133:394–408

Tsiakis P, Shah N, Pantelides CC (2001) Design of multi-echelon supply chain networks under demand uncertainty. Ind Eng Chem Res 40:3585–3604

Talluri S, Baker RC (2002) A multi-phase mathematical programming approach for effective supply chain design. Eur J Oper Res 141:544–558

Cakravastia A, Toha IS, Nakamura N (2002) A two-stage model for the design of supply chain networks. Int J Prod Econ 80:231–248

Beamon BM, Fernandes C (2004) Supply chain network configuration for product recovery. Prod Plan Control 15(3):270–281

Yeh W-C (2005) A hybrid heuristic algorithm for the multistage supply chain network problem. Int J Adv Manuf Techol 26:675–685

Eskigun E, Uzsoy R, Preckel PV, Beaujon G, Krishnan S, Tew JD (2005) Outbound supply chain network design with mode selection, lead times and capacitated vehicle distribution centers. Eur J Oper Res 165:182–206

Amiri A (2006) Designing a distribution network in a supply chain: formulation and efficient solution procedure. Eur J Oper Res 171:567–576

Narasimhan R (1980) Goal programming in a fuzzy environment. Decision Sci 11:325–336

Hannan EL (1981) Some further comments on fuzzy priorities. Decision Sci 13:337–339

Ignizio JP (1982) On the rediscovery of fuzzy goal programming. Decision Sci 13:331–336

Narasimhan R, Rubin PA (1984) Fuzzy goal programming with nested priorities. Fuzzy Set Syst 14:115–129

Tiwari RN, Dharmar S, Rao JR (1986) Priority structure in fuzzy goal programming. Fuzzy Set Syst 19:251–259

Tiwari RN, Dharmar S, Rao JR (1987) Fuzzy goal programming - an additive method. Fuzzy Set Syst 24:27–34

Bellman RE, Zadeh LA (1970) Decision making in a fuzzy environment. Manage Sci 17:141–164

Zimmermann H-J (1978) Fuzzy programming and linear programming with several objective functions. Fuzzy Sets Syst 1:45–55

Lai Y-J, Hwang C-L (1994) Fuzzy multiple objective decision making. Springer, Berlin Heidelberg New York

Abd El-Wahed WF, Lee SM (2006) Interactive fuzzy goal programming for multi- objective transportation problems. Omega 34:158–166

Werners B (1987) Interactive multiple objective programming subject to flexible constraints. Eur J Oper Res 31:342–349

Werners B (1987) An interactive fuzzy programming system. Fuzzy Set Syst 23:131–147

Leung Y (1987) Hierarchical programming with fuzzy objectives and constraints. In: Kacprzyk J, Orlovski SA (eds) Optimization models using fuzzy sets and possibility theory. D. Reidel, Dordrecht, pp 245–257

Fabian Cs, Ciobanu Gh, Stoica M (1987) Interactive polyoptimization for fuzzy mathematical programming. In: Kacprzyk J, Orlovski SA (eds) Optimization models using fuzzy sets and possibility theory. D. Reidel, Dordrecht, pp 272–291

Sasaki MY, Nakahara Y, Gen M, Ida K (1991) An efficient algorithm for solving fuzzy multiobjective 0-1 linear programming problem. Comput Ind Eng 21:647–651

Babtistella LFB, Ollero A (1980) Fuzzy methodologies for interactive multicriteria optimization. IEEE T Syst Man Cyb 10:355–365

Werners B (1988) Aggregation models in mathematical programming. In: Mitra G, Greenberg HJ, Lootsma FA, Rijckaert MJ, Zimmermann H-J (eds) Mathematical models for decision support. Springer, Berlin Heidelberg New York, pp 295–305