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April 10, 2013 - May 26, 2026

Available Issues

April 10, 2013 - May 26, 2026

An Optimization Model for Empty Freight Car Assignment at Union Pacific Railroad

Published Online:1 Apr 2008https://doi.org/10.1287/inte.1070.0330

References

  • Cheung R. K., Powell W. B. An algorithm for multistage dynamic networks with random arc capacities with an application to dynamic fleet management. Oper. Res. (1996) 44(6):951–963LinkGoogle Scholar
  • Cordeau J.-F., Toth P., Vigo D. A survey of optimization models for train routing and scheduling. Transportation Sci. (1998) 32(4):380–404LinkGoogle Scholar
  • Crainic T. G., Gendreau M., Dejax P. Dynamic and stochastic models for the allocation of empty containers. Oper. Res. (1993) 41(1):102–126LinkGoogle Scholar
  • Dejax P. J., Crainic T. G. A review of empty flows and fleet management models in freight transportation. Transportation Sci. (1987) 21(4):227–247LinkGoogle Scholar
  • Hitchcock F. L. The distribution of a product from several sources to numerous localities. J. Math. Phys. (1941) 20:224–230CrossrefGoogle Scholar
  • Joborn M., Crainic T. G., Gendreau M., Holmberg K., Lundgren J. T. Economies of scale in empty freight car distribution in scheduled railways. Transportation Sci. (2004) 38(2):121–134LinkGoogle Scholar
  • Jordan W. C., Turnquist M. A. A stochastic, dynamic network model for railroad car distribution. Transportation Sci. (1983) 17(2):123–145LinkGoogle Scholar
  • Kantorovich L. V. Mathematical methods in the organization and planning of production. Management Sci. (1960) 6:366–422LinkGoogle Scholar
  • Koopmans T. C. Optimum utilization of the transportation system. Econometrica (1949) 17:136–146CrossrefGoogle Scholar
  • Misra S. C. Linear programming of empty wagon disposition. Rail Internat. (1972) 3:151–158Google Scholar
  • Nazareth J. L.Computer Solutions of Linear Programs (1987) (Oxford University Press, New York) Google Scholar
  • Powell W. B., Carvalho T. A. Dynamic control of multicommodity fleet management problems. Eur. J. Oper. Res. (1997) 98:522–541CrossrefGoogle Scholar
  • Powell W. B., Carvalho T. A. Dynamic control of logistics queueing network for large-scale fleet management. (1998) . Report, Department of Civil Engineering and Operations Research, Princeton University, Princeton, NJGoogle Scholar
  • Powell W. B., Jaillet P., Odoni A., Ball M. O., Magnanti T. L., Monma C. L., Nemhauser G. L. Stochastic and dynamic networks and routing. Handbooks in Operations Research and Management Science, Vol. 8: Network Routing (1995) (North-Holland, Amsterdam) 141–295Google Scholar
  • Spieckermann S., Vob S. A case study in empty railcar distribution. Eur. J. Oper. Res. (1995) 87:586–598CrossrefGoogle Scholar
  • White W. W., Bomberault A. M. A network algorithm for empty freight car allocation. IBM Systems J. (1969) 8:147–169CrossrefGoogle Scholar
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