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April 10, 2013 - May 13, 2026

Available Issues

April 10, 2013 - May 13, 2026

A Model and Algorithm for the Courier Delivery Problem with Uncertainty

Published Online:22 Jan 2010https://doi.org/10.1287/trsc.1090.0303

References

  • Beasley J. E., Christofides N. Vehicle routing with a sparse feasibility graph. Eur. J. Oper. Res. (1997) 98:499–511CrossrefGoogle Scholar
  • Ben-Tal A., Nemirovski A. Robust convex optimization. Math. Oper. Res. (1998) 23(4):769–805LinkGoogle Scholar
  • Ben-Tal A., Nemirovski A. Robust solutions to uncertain programs. Oper. Res. Lett. (1999) 25:1–13CrossrefGoogle Scholar
  • Ben-Tal A., Goryashko A., Guslitzer E., Nemirovski A. Adjustable robust solutions of uncertain linear programs. Math. Programming (2004) 99:351–376CrossrefGoogle Scholar
  • Bertsimas D. A vehicle routing problem with stochastic demand. Oper. Res. (1992) 40(3):574–585LinkGoogle Scholar
  • Bertsimas D., Sim M. Robust discrete optimization and network flows. Math. Programming (2003) 98:49–71CrossrefGoogle Scholar
  • Bertsimas D., Sim M. The price of robustness. Oper. Res. (2004) 52(1):35–53LinkGoogle Scholar
  • Bertsimas D., Jaillet P., Odoni A. R. A priori optimization. Oper. Res. (1990) 38(6):1019–1033LinkGoogle Scholar
  • Birge J. R., Louveaux F.Introduction to Stochastic Programming (1997) (Springer-Verlag, New York) Google Scholar
  • Cordeau J.-F., Laporte G., Rego C., Alidaee B. Tabu search heuristics for the vehicle routing problem. Metaheuristic Optimization via Memory and Evolution: Tabu Search and Scatter Search (2004) (Kluwer, Boston) 145–163Google Scholar
  • Dessouky M., Hall R., Nowroozi A., Mourikas K. Bus dispatching at timed transfer transit stations using bus tracking technology. Transportation Res. Part C (1999) 7:187–208CrossrefGoogle Scholar
  • El-Ghaoui L., Oustry F., Lebret H. Robust solutions to uncertain semidefinite programs. SIAM J. Optim. (1998) 9:33–52CrossrefGoogle Scholar
  • Goldfarb D., Iyengar G. Robust portfolio selection problems. Math. Oper. Res. (2003) 28(1):1–38LinkGoogle Scholar
  • Groër C., Golden B., Wasil E. The consistent vehicle routing problem. Manufacturing Service Oper. Management (2009) 11(4):630–643LinkGoogle Scholar
  • Haughton M. Quantifying the benefits of route reoptimization under stochastic customer demands. J. Oper. Res. Soc. (2000) 51:320–322CrossrefGoogle Scholar
  • Haughton M., Stenger A. Modeling the customer service performance of fixed-routes delivery systems under stochastic demands. J. Bus. Logist. (1998) 9:155–172Google Scholar
  • Hvattum L. M., Løkketangen A., Laporte G. Solving a dynamic and stochastic vehicle routing problem with a sample scenario hedging heuristic. Transportation Sci. (2006) 40(4):421–438LinkGoogle Scholar
  • Jaillet P. A priori solution of a traveling salesman problem in which a random subset of the customers are visited. Oper. Res. (1988) 36(6):929–936LinkGoogle Scholar
  • Jula H., Dessouky M. M., Ioannou P. Truck route planning in non-stationary stochastic networks with time-windows at customer locations. IEEE Trans. Intelligent Transportation Systems (2006) 37:51–63CrossrefGoogle Scholar
  • Lambert V., Laporte G., Louveaux F. Designing collection routes through bank branches. Comput. Oper. Res. (1993) 20:783–791CrossrefGoogle Scholar
  • Laporte G., Louveaux F., Mercure H. The vehicle routing problem with stochastic travel times. Transportation Sci. (1992) 26(3):161–170LinkGoogle Scholar
  • Malandraki C., Zaret D., Perez J., Holland C., Salvendy G. Industrial engineering applications in transportation. Handbook of Industrial Engineering (2001) 3rd ed.(John Wiley and Sons, New York) 787–824CrossrefGoogle Scholar
  • Morales J. C. Planning robust freight transportation operations. (2006) . Ph.D. thesis, Georgia Institute of TechnologyGoogle Scholar
  • Savelsbergh M. W. P., Goetschalckx M. A Comparison of the efficiency of fixed versus variable vehicle routes. J. Bus. Logist. (1995) 16:163–187Google Scholar
  • Sungur I.The Robust Vehicle Routing Problem: A Novel Approach to Uncertainty in a Classical Transportation Problem with Real Life Application (2009) (VDM Verlag Dr. Müller, Saarbrücken, Germany) Google Scholar
  • Sungur I., Ordóñez F., Dessouky M. M. A robust optimization approach for the capacitated vehicle routing problem with demand uncertainty. IIE Trans. (2008) 40:509–523CrossrefGoogle Scholar
  • Waters C. D. J. Vehicle-scheduling problems with uncertainty and omitted customers. J. Oper. Res. Soc. (1989) 40:1099–1108CrossrefGoogle Scholar
  • Zhong H., Hall R. W., Dessouky M. M. Territory planning and vehicle dispatching with driver learning. Transportation Sci. (2007) 41(1):74–89LinkGoogle Scholar
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