The Value of Flexibility in Robust Location–Transportation Problems

References

• Abouee-Mehrizi H, Berman O, Baharnemati MR (2014) Designing production-inventory-transportation systems with capacitated cross-docks. Transportation Sci. 48(1):121–135.Link, Google Scholar
• An Y, Zeng B, Zhang Y, Zhao L (2014) Reliable p-median facility location problem: Two-stage robust models and algorithms. Transportation Res. Part B: Methodological 64:54–72.Crossref, Google Scholar
• Atamtürk A, Zhang M (2007) Two-stage robust network flow and design under demand uncertainty. Oper. Res. 55(4):662–673.Link, Google Scholar
• Baron O, Milner J, Naseraldin H (2011) Facility location: A robust optimization approach. Production Oper. Management 20(5):772–785.Crossref, Google Scholar
• Ben-Tal A, Goryashko A, Guslitzer E, Nemirovski A (2004) Adjustable robust solutions of uncertain linear programs. Math. Programming 99(2):351–376.Crossref, Google Scholar
• Bertsimas D, de Ruiter F (2016) Duality in two-stage adaptive linear optimization: Faster computation and stronger bounds. INFORMS J. Comput. 28(3):500–511.Link, Google Scholar
• Bertsimas D, Goyal V (2012) On the power and limitations of affine policies in two-stage adaptive optimization. Math. Programming 134(2):491–531.Crossref, Google Scholar
• Bertsimas D, Sim M (2004) The price of robustness. Oper. Res. 52(1): 35–53.Link, Google Scholar
• Bertsimas D, Brown D, Caramanis C (2011) Theory and applications of robust optimization. SIAM Rev. 53(3):464–501.Crossref, Google Scholar
• Chen X, Zhang Y (2009) Uncertain linear programs: Extended affinely adjustable robust counterparts. Oper. Res. 57(6): 1469–1482.Link, Google Scholar
• Christensen TRL, Andersen KA, Klose A (2013) Solving the single-sink, fixed-charge, multiple-choice transportation problem by dynamic programming. Transportation Sci. 47(3):428–438.Link, Google Scholar
• Crainic TG, Laporte G (1997) Planning models for freight transportation. Eur. J. Oper. Res. 97(3):409–438.Crossref, Google Scholar
• Delage E, Arroyo S, Ye Y (2014) The value of stochastic modeling in two-stage stochastic programs with cost uncertainty. Oper. Res. 62(6):1377–1393.Link, Google Scholar
• Gabrel V, Murat C, Thiele A (2014a) Recent advances in robust optimization: An overview. Eur. J. Oper. Res. 235(3):471–483.Crossref, Google Scholar
• Gabrel V, Lacroix M, Murat C, Remli N (2014b) Robust location transportation problems under uncertain demands. Discrete Appl. Math. 164(1):100–111.Crossref, Google Scholar
• Georghiou A, Wiesemann W, Kuhn D (2015) Generalized decision rule approximations for stochastic programming via liftings. Math. Programming 152(1–2):301–338.Crossref, Google Scholar
• Lei C, Lin WH, Miao L (2016) A two-stage robust optimization approach for the mobile facility fleet sizing and routing problem under uncertainty. Comput. Oper. Res. 67:75–89.Crossref, Google Scholar
• Oktal H, Ozger A (2013) Hub location in air cargo transportation: A case study. J. Air Transport Management 27(1):1–4.Crossref, Google Scholar
• Tsiakis P, Shah N, Pantelides CC (2001) Design of multi-echelon supply chain networks under demand uncertainty. Indust. Engrg. Chemistry Res. 40(16):3585–3604.Crossref, Google Scholar
• Zeng B, Zhao L (2013) Solving two-stage robust optimization problems using a column-and-constraint generation method. Oper. Res. Lett. 41(5):457–461.Crossref, Google Scholar