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Albareda-Sambola M., Fernández E., Hinojosa Y., Puerto J., The multi-period incremental service facility location problem, Computers & Operations Research, 36, 5, 2009, 1356-1375.Search in Google Scholar
Alumur S.A., Nickel S., Saldanha-da-Gama F., Verter V., Multi-period reverse logistics network design, European Journal of Operational Research, 220, 1, 2012, 67-78.Search in Google Scholar
Ambrosino D., Scutella M.G., Distribution network design: New problems and related models, European journal of operational research, 165, 3, 2005, 610-624.Search in Google Scholar
Cardoso S.R., Barbosa-Póvoa A.P.F., Relvas S., Design and planning of supply chains with integration of reverse logistics activities under demand uncertainty, European journal of operational research, 226, 3, 2013, 436-451.Search in Google Scholar
El-Sayed M., Afia N., El-Kharbotly A., A stochastic model for forward–reverse logistics network design under risk, Computers & Industrial Engineering, 58, 3, 2010, 423-431.Search in Google Scholar
Erlenkotter D., A comparative study of approaches to dynamic location problems, European Journal of Operational Research, 6, 2, 1981, 133-143.Search in Google Scholar
Gebennini E., Gamberini R., Manzini R., An integrated production–distribution model for the dynamic location and allocation problem with safety stock optimization, International Journal of Production Economics, 122, 1, 2009, 286-304.Search in Google Scholar
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.Search in Google Scholar
Hinojosa Y., Kalcsics J., Nickel S., Puerto J., Velten S., Dynamic supply chain design with inventory, Computers & operations research, 35, 2, 2008, 373-391.Search in Google Scholar
Huang K., Ahmed S., The value of multi-stage stochastic programming in capacity planning under uncertainty, Stochastic Programming E-Print Series, 15, 2005, 23-44.Search in Google Scholar
Mahar S., Bretthauer K.M., Venkataramanan M.A., An algorithm for solving the multi-period online fulfillment assignment problem, Mathematical and Computer Modelling, 50, 9, 2009, 1294-1304.Search in Google Scholar
Melo M.T., Nickel S., Da Gama F.S., Dynamic multi-commodity capacitated facility location: a mathematical modeling framework for strategic supply chain planning, Computers & Operations Research, 33, 1, 2006, 181-208.Search in Google Scholar
Nickel S., Saldanha-da-Gama F., Ziegler H.P., A multi-stage stochastic supply network design problem with financial decisions and risk management, Omega, 40, 5, 2012, 511-524.Search in Google Scholar
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.Search in Google Scholar
Paksoy T., Chang C.T., Revised multi-choice goal programming for multi-period, multi-stage inventory controlled supply chain model with popup stores in Guerrilla marketing, Applied Mathematical Modelling, 34, 11, 2010, 3586-3598.Search in Google Scholar
Pimentel B.S., Mateus G.R., Almeida F.A., Stochastic capacity planning and dynamic network design, International Journal of Production Economics, 145, 1, 2013, 139-149.Search in Google Scholar
Sha Y., Huang J., The multi-period location-allocation problem of engineering emergency blood supply systems, Systems Engineering Procedia, 5, 2012, 21-28.Search in Google Scholar
Vila D., Martel A., Beauregard R., Designing logistics networks in divergent process industries: a methodology and its application to the lumber industry, International journal of production economics, 102, 2, 2006, 358-378.Search in Google Scholar
Nguyen T.K.L., Nguyen X.H., Pham H.V., An application of the negative malmquist model for vietnamese garment and textiles industry, Management Systems in Production Engineering, 30, 1, 2022, 74-79.Search in Google Scholar
Nozari H., Ghahremani-Nahr J., Szmelter-Jarosz A., A multi-stage stochastic inventory management model for transport companies including several different transport modes, International Journal of Management Science and Engineering Management,18, 2, 2023, 134-144.Search in Google Scholar
Goldbeck N., Angeloudis P., Ochieng W., Optimal supply chain resilience with consideration of failure propagation and repair logistics, Transportation Research Part E: Logistics and Transportation Review, 133, 2020, 101830.Search in Google Scholar
Khalilabadi S.M.G., Zegordi S.H., Nikbakhsh E., A multi-stage stochastic programming approach for supply chain risk mitigation via product substitution, Computers & Industrial Engineering, 149, 2020, 106786.Search in Google Scholar
Torkaman S., Ghomi S.F., Karimi B., Hybrid simulated annealing and genetic approach for solving a multi-stage production planning with sequence-dependent setups in a closed-loop supply chain, Applied Soft Computing, 71, 2018, 1085-1104.Search in Google Scholar
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