Design a Mathematical Planning Approach to Optimize the Supply Chain Taking Into Account Uncertainties In Distributors

[1]. Campbell J.F., Integer programming formulations of discrete hub location problems, European Journal of Operational Research, 72, 2, 1994, 387-405.10.1016/0377-2217(94)90318-2 Search in Google Scholar

[2]. Chen C.L., Wang B.W., Lee W.C., Multiobjective optimization for a multienterprise supply chain network, Industrial & Engineering Chemistry Research, 42, 9, 2003, 1879-1889.10.1021/ie0206148 Search in Google Scholar

[3]. Goli A., Malmir B., A covering tour approach for disaster relief locating and routing with fuzzy demand, International Journal of Intelligent Transportation Systems Research, 18, 1, 2020, 140-152.10.1007/s13177-019-00185-2 Search in Google Scholar

[4]. Handfield R., Warsing D., Wu X., (Q, r) Inventory policies in a fuzzy uncertain supply chain environment, European Journal of Operational Research, 197, 2, 2009, 609-619.10.1016/j.ejor.2008.07.016 Search in Google Scholar

[5]. Huang M., Dong L., Kuang H., Jiang Z.Z., Lee L.H., Wang, X., Supply chain network design considering customer psychological behavior-a 4PL perspective, Computers & Industrial Engineering, 159, 2021, 107484.10.1016/j.cie.2021.107484 Search in Google Scholar

[6]. Langevin A., Riopel D., (Eds.), Logistics systems: design and optimization (Vol. 2). Springer Science & Business Media, 200510.1007/b106452 Search in Google Scholar

[7]. Murthy D.N.P., Solem O., Roren T., Product warranty logistics: Issues and challenges, European Journal of Operational Research, 156, 1, 2004, 110-126.10.1016/S0377-2217(02)00912-8 Search in Google Scholar

[8]. Pahlevan S.M., Hosseini S.M.S., Goli A., Sustainable supply chain network design using products’ life cycle in the aluminum industry, Environmental Science and Pollution Research, 2021, 1-25.10.1007/s11356-020-12150-833474670 Search in Google Scholar

[9]. Peidro D., Mula J., Poler R., Verdegay J.L., Fuzzy optimization for supply chain planning under supply, demand and process uncertainties, Fuzzy sets and systems, 160, 18, 2009, 2640-2657.10.1016/j.fss.2009.02.021 Search in Google Scholar

[10]. Peidro D., Mula J., Jiménez M., del Mar Botella M., A fuzzy linear programming based approach for tactical supply chain planning in an uncertainty environment, European Journal of Operational Research, 205, 1, 2010, 65-80.10.1016/j.ejor.2009.11.031 Search in Google Scholar

[11]. Petrovic D., Roy R., Petrovic R., Modelling and simulation of a supply chain in an uncertain environment, European journal of operational research, 109, 2, 1998, 299-309.10.1016/S0377-2217(98)00058-7 Search in Google Scholar

[12]. Pike D.F., Cohen M.A., Performance Characteristic Stochastic Integrated Production Distribution System, European Journal of operational research, 68, 1993, 23-48.10.1016/0377-2217(93)90075-X Search in Google Scholar

[13]. Scaparra M.P., Church R.L., A bilevel mixed-integer program for critical infrastructure protection planning, Computers & Operations Research, 35, 6, 2008, 1905-1923.10.1016/j.cor.2006.09.019 Search in Google Scholar

[14]. Shen Z.J.M., Daskin M.S., Trade-offs between customer service and cost in integrated supply chain design, Manufacturing & service operations management, 7, 3, 2005, 188-207.10.1287/msom.1050.0083 Search in Google Scholar

[15]. Snyder L.V., Daskin M.S., Reliability models for facility location: the expected failure cost case, Transportation science, 39, 3, 2005, 400-416.10.1287/trsc.1040.0107 Search in Google Scholar

[16]. Li Y., Li X., Shu J., Song M., Zhang K., A general model and efficient algorithms for reliable facility location problem under uncertain disruptions, INFORMS Journal on Computing, 34, 1, 2022, 407-426.10.1287/ijoc.2021.1063 Search in Google Scholar

[17]. Tsiakis P., Shah N., Pantelides C.C., Design of multi-echelon supply chain networks under demand uncertainty, Industrial & engineering chemistry research, 40, 16, 2001, 3585-3604.10.1021/ie0100030 Search in Google Scholar

[18]. Wang J., Shu Y.F., Fuzzy decision modeling for supply chain management, Fuzzy Sets and systems, 150, 1, 2005, 107-127.10.1016/j.fss.2004.07.005 Search in Google Scholar

[19]. Yolmeh A., Saif U., Closed-loop supply chain network design integrated with assembly and disassembly line balancing under uncertainty: an enhanced decomposition approach, International Journal of Production Research, 59, 9, 2021, 2690-2707.10.1080/00207543.2020.1736723 Search in Google Scholar

[20]. Rubashkina Y., Galeotti M., Verdolini E., Environmental regulation and competitiveness: Empirical evidence on the Porter Hypothesis from European manufacturing sectors, Energy Policy, 83, 2015, 288-300.10.1016/j.enpol.2015.02.014 Search in Google Scholar

[21]. Baghizadeh K., Zimon D., Jum’a L., Modeling and optimization sustainable forest supply chain considering discount in transportation system and supplier selection under uncertainty, Forests, 12, 8, 2021, 964.10.3390/f12080964 Search in Google Scholar

[22]. RezaHoseini A., Noori S., Ghannadpour S.F., Integrated scheduling of suppliers and multi-project activities for green construction supply chains under uncertainty, Automation in Construction, 122, 2021, 103485.10.1016/j.autcon.2020.103485 Search in Google Scholar

[23]. Nguyen T.D., Nguyen-Quang T., Venkatadri U., Diallo C., Adams M., Mathematical programming models for fresh fruit supply chain optimization: a review of the literature and emerging trends, AgriEngineering, 3, 3, 2021, 519-541.10.3390/agriengineering3030034 Search in Google Scholar