Scheduling Medical Residents at Boston University School of Medicine

References

• Aickelin U., Dowsland K. An indirect genetic algorithm for a nurse scheduling problem. Comp. Oper. Res. (2004) 31:761–778Crossref, Google Scholar
• Aickelin U., Li J. An estimation of distribution algorithm for nurse scheduling. Ann. Oper. Res. (2007) 155:289–309Crossref, Google Scholar
• Azaiez M. N., Al Sharif S. S. A 0-1 goal programming model for nurse scheduling. Comp. Oper. Res. (2005) 32(3):491–507Crossref, Google Scholar
• Bard J. F., Purnomo H. W. A column generation-based approach to solve the preference scheduling problem for nurses with downgrading. Socio-Econom. Planning Sci. (2005a) 39(3):193–213Crossref, Google Scholar
• Bard J. F., Purnomo H. W. Preference scheduling for nurses using column generation. Eur. J. Oper. Res. (2005b) 164:510–534Crossref, Google Scholar
• Bard J. F., Purnomo H. W. Short-term nurse scheduling in response to daily fluctuations in supply and demand. Health Care Management Sci. (2005c) 8:315–324Crossref, Google Scholar
• Bard J. F., Purnomo H. W. Cyclic preference scheduling of nurses using a Lagrangian-based heuristic. J. Scheduling (2007) 10(1):5–23Crossref, Google Scholar
• Beaulieu H., Ferland J., Gendron B., Michelon P. A mathematical programming approach for scheduling physicians in the emergency room. Health Care Management Sci. (2000) 3:193–200Crossref, Google Scholar
• Beddoe G. R., Petrovic S. Selecting and weighting features using a genetic algorithm in a case-based reasoning approach to personnel rostering. Eur. J. Oper. Res. (2006) 175(2):649–671Crossref, Google Scholar
• Burke E. K., Kendall G., Soubeiga E. A tabu-search hyperheuristic for timetabling and rostering. J. Heuristics (2003) 9(6):451–470Crossref, Google Scholar
• Burke E. K., De Causmaecker P., Petrovic S., Vanden Berghe G. Metaheuristics for handling time interval coverage constraints in nurse scheduling. Appl. Artificial Intelligence (2006) 20(3):743–766Crossref, Google Scholar
• Burke E. K., De Causmaecker P., Vanden Berghe G., Van Landeghem H. The state of the art of nurse rostering. J. Scheduling (2004) 7:441–499Crossref, Google Scholar
• Burke E. K., Curtois T. E., Post G., Qu R., Veltman B. A hybrid heuristic ordering and variable neighbourhood search for the nurse rostering problem. Eur. J. Oper. Res. (2008) 188(2):330–341Crossref, Google Scholar
• Carter M., Lapierre S. Scheduling emergency room physicians. Health Care Management Sci. (2001) 4:347–360Crossref, Google Scholar
• Cheng B., Lee J., Wu J. A nurse rostering system using constraint programming and redundant modeling. IEEE Trans. Inform. Tech. Biomedicine (1997) 1:44–54Crossref, Google Scholar
• Cipriano R., Gaspero L. D., Dovier A., Aguilera M. J. B., Blum C., Roli A., Sampels M. Hybrid approaches for rostering: A case study in the integration of constraint programming and local search. 3rd International Workshop Hybrid Metaheurstics 2006 (HM2006) (2006) 4030(Springer-Verlag, Berlin-Heidelberg) 110–123Lecture Notes in Computer ScienceCrossref, Google Scholar
• Dias T. M., Ferber D. F., de Souza C. C., Moura A. V. Constructing nurse schedules at large hospitals. Internat. Trans. Oper. Res. (2003) 10(3):245–265Crossref, Google Scholar
• Ehrgott M.Multicriteria Optimization (2005) (Springer, Berlin) Google Scholar
• Franz L., Miller J. Scheduling medical residents to rotations: Solving the large-scale multiperiod staff assignment problem. Oper. Res. (1993) 41:269–279Link, Google Scholar
• Gendreau M., Ferland J., Gendron B., Hail N., Jaumard B., Lapierre S., Pesant G., Soriano P. Physician scheduling in emergency rooms. Proc. 6th Internat. Conf. Practice Theory Automated Timetabling (PATAT'06) (2006) Brno, Czech Republic:2–14Google Scholar
• Gutjahr W. J., Rauner M. S. An ACO algorithm for a dynamic regional nurse-scheduling problem in Austria. Comp. Oper. Res. (2007) 34:642–666Crossref, Google Scholar
• Kellogg D., Walczak S. Nurse scheduling: From academia to implementation or not? Interfaces (2007) 37(4):355–369Link, Google Scholar
• Landa Silva J., Burke E. K., Petrovic S., Gandibleux X., Sevaux M., Sorensen K., T'kindt V. An introduction to multiobjective metaheuristics for scheduling and timetabling. Metaheuristics for Multiobjective Optimization (2004) (Springer-Verlag, Berlin/Heidelberg) 91–129Crossref, Google Scholar
• Li J., Aickelin U., Pelican M., Sastry K., Cant-Paz E. BOA for nurse scheduling. Scalable Optimization via Probabilistic Modeling: From Algorithms to Applications (2006) (Springer-Verlag, Berlin/Heidelberg) 315–332Crossref, Google Scholar
• Ozkarahan I. A scheduling model for hospital residents. J. Medical Systems (1994) 18:251–265Crossref, Google Scholar
• Petrovic S., Beddoe G. R., Vanden Berghe G. Case-based reasoning in employee rostering: Learning repair strategies from domain experts. (2002) . Technical report, Automated Scheduling Optimisation and Planning Research Group, School of Computer Science and Information Technology, University of Nottingham, Nottingham, UKGoogle Scholar
• Sherali H., Ramahi M., Saifee Q. Hospital resident scheduling problem. Production Planning Control (2002) 13:220–233Crossref, Google Scholar
• Siferd S., Benton W. Workforce staffing and scheduling. Eur. J. Oper. Res. (1992) 60:233–246Crossref, Google Scholar
• Valouxis C., Housos E. Hybrid optimization techniques for the workshift and rest assignment of nursing personnel. Artificial Intelligence Medicine (2000) 20:155–175Crossref, Google Scholar
• Vassilacopoulos G. Allocating doctors to shifts in an accident and emergency department. J. Oper. Res. Soc. (1985) 36:517–523Crossref, Google Scholar