[1] O. S. Benli and A. R. Botsali, An optimization-based decision support system for a university timetabling problem: an integrated constraint and binary integer programming, 2004. http://www.csulb.edu/~obenli/Research/benli-botsali.pdf.
[Accessed: 15 January 2007].
[2] E. K. Burke, T. Bykov and S. Petrovic, A multicriteria approach to examination timetabling, Practice and Theory of Automated Timetabling III, E. K. Burke and W. Erben, eds., Springer LNCS, Vol. 2079, 2001, pp. 118-131.
[3] E. K. Burke and S. Petrovic, Recent research directions in automated timetabling, European J. Oper. Res. 140(2) (2002), 226-280.
[4] M. W. Carter and G. Laporte, Recent developments in practical course scheduling, Practice and Theory of Timetabling II, E. Burke and M. Carter, eds., Springer- Verlag LNCS, Vol. 1408, 1998, pp. 3-19.
[5] M. W. Carter, A comprehensive course timetabling and student scheduling system at the University of Waterloo, Practice and Theory of Automated Timetabling III, E. Burke and W. Erben, eds., Springer-Verlag LNCS, Vol. 2079, 2001, pp. 64-82.
[6] N. A. Ismayilova, M. Sagir and R. N. Gasimov, A multiobjective faculty-course-time slot assignment problem with preferences, Math. Comput. Modelling 46(7-8) (2007), 1017-1029.
[7] B. McCollum, Bridging the gap between research and practice, Proceedings of the 6th International Conference on the Practice and Theory of Automated Timetabling, Plenary Talk, 2006, pp. 15-35.
[8] L. Zhang and S. Lau, Constructing university timetable using constraint satisfaction programming approach, International Conference on Computational Intelligence for Modelling, Control and Automation and International Conference on Intelligent Agents, Web Technologies and Internet Commerce, Vol. 2, 2005, pp. 55-60. |
