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April 16, 2013 - May 25, 2026

Available Issues

April 16, 2013 - May 25, 2026

Class Scheduling for Pilot Training

Published Online:1 Feb 2004https://doi.org/10.1287/opre.1030.0076

References

  • Abramson D. Constructing school timetables using simulated annealing: Sequential and parallel algorithms. Management Sci. (1991) 37:98–113LinkGoogle Scholar
  • Anbil R., Tanga R., Johnson E. L. A global approach to crew-pairing optimization. IBM Systems J. (1992) 31:71–78CrossrefGoogle Scholar
  • Apte A., Jayasuriya A., Kennington J., Krass I., Mohamed R., Sorensen S., Whitler J. Class scheduling algorithms for navy training schools. Naval Res. Logist. (1998) 45:533–551CrossrefGoogle Scholar
  • Baptiste P., Le Pape C., Naijte W. Satisfiability tests and time-bound adjustments for cumulative scheduling problems. Ann. Oper. Res. (1999) 92:305–333CrossrefGoogle Scholar
  • Bard J. F., Huang L., Jaillet P., Dror M. A decomposition approach to the inventory routing problem with satellite facilities. Transportation Sci. (1998) 32:189–203LinkGoogle Scholar
  • Brailsford S. C., Potts C. N., Smith B. M. Constraint satisfaction problems: Algorithm and applications. Eur. J. Oper. Res. (1999) 119:557–581CrossrefGoogle Scholar
  • Brucker P., Jurisch B., Kramer A. Complexity of scheduling problems with multi-purpose machines. Ann. Oper. Res. (1997) 70:57–73CrossrefGoogle Scholar
  • Brucker P., Drexl A., Mohring R., Neumann K., Pesch E. Resource-constrained project scheduling: Notation, classification, models, and methods. Eur. J. Oper. Res. (1999) 112:3–41CrossrefGoogle Scholar
  • Carter M. W., Laporte G. Recent developments in practical examination timetabling. Lecture Notes Comput. Sci. (1995) 1153:3–21Google Scholar
  • Carter M. W., Laporte G. Recent developments in practical course timetabling. Lecture Notes Comput. Sci. (1998) 1408:3–19CrossrefGoogle Scholar
  • Cesta A., Oddi A., Smith S. F. A constraint-based method for project scheduling with time windows. J. Heuristics (2002) 8:109–136CrossrefGoogle Scholar
  • Demeulemeester E., Herroelen W. A branch-and-bound procedure for the multiple resource-constrained project scheduling problem. Management Sci. (1992) 38:1803–1818LinkGoogle Scholar
  • Deris S., Omatu S., Ohta H. Timetable planning using the constraint-based reasoning. Comput. Oper. Res. (2000) 27:819–840CrossrefGoogle Scholar
  • Desaulniers G., Desrosiers J., Dumas Y., Marc S., Rioux B., Solomon M. M., Soumis F. Crew pairing at Air France. Eur. J. Oper. Res. (1997) 97:245–259CrossrefGoogle Scholar
  • Fizzano P., Swanson S. Scheduling classes on a college campus. Computational Optim. Appl. (2000) 16:279–294CrossrefGoogle Scholar
  • Garey M. R., Johnson D. S.Computers and Intractability: A Guide to the Theory of NP-Completeness (1979) (W.H. Freeman & Company, San Francisco, CA) Google Scholar
  • Glassey C. R., Mizrach M. A decision support system for assigning classes to rooms. Interfaces (1986) 16(5):92–100LinkGoogle Scholar
  • Haase K., Latteier J., Schirmer A. The course scheduling problem at Lufthansa Technical Training. Eur. J. Oper. Res. (1998) 110:441–456CrossrefGoogle Scholar
  • Hall N. G., Sriskandarajah C. A survey of machine scheduling problems with blocking and no-wait in process. Oper. Res. (1996) 44:510–525LinkGoogle Scholar
  • Hartmann S., Kolisch R. Experimental evaluation of state-of-the-art heuristics for the resource-constrained project scheduling problem. Eur. J. Oper. Res. (2000) 127:394–407CrossrefGoogle Scholar
  • Lee C.-Y. Two-machine flowshop scheduling with availability constraints. Eur. J. Oper. Res. (1999) 114:420–429CrossrefGoogle Scholar
  • Li C.-L., Cai X., Lee C.-Y. Scheduling with multiple-job-on-one-processor pattern. IIE Trans. Scheduling Logist. (1998) 30:433–445Google Scholar
  • Linn R., Zhang W. Hybrid flow shop scheduling: A survey. Comput. Indust. Engrg. (1999) 37:57–61CrossrefGoogle Scholar
  • Schrage L. A proof of the optimality of the shortest remaining processing time discipline. Oper. Res. (1968) 16:687–690LinkGoogle Scholar
  • Yu G., Dugan S., Arguello M., Yu G. Moving toward an integrated decision support system for manpower planning at Continental Airlines: Optimization of pilot training assignments. Industrial Applications of Combinatorial Optimization (1998) (Kluwer Academic Publishers, Boston, MA) 1–24CrossrefGoogle Scholar
  • Yu G., Pachon J., Thengvall B., Ciriani T. A., Fasano G., Gliozzi S., Tadei R. Optimization-based integrated manpower management for airlines. Operations Research in Space and Air (2003) (Kluwer Academic Publishers, Boston, MA) 407–434CrossrefGoogle Scholar
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