Minimum Penalty Perturbation Heuristics for Curriculum-Based Timetables Subject to Multiple Disruptions
Künye
AKKAN, Can, Ayla GÜLCÜ & Zeki KUŞ. "Minimum Penalty Perturbation Heuristics for Curriculum-Based Timetables Subject to Multiple Disruptions". Computers and Operations Research, 132 (2021): 1-15.Özet
Course timetables are often rendered infeasible due to unexpected changes in requirements and must be
repaired. Given an initial timetable, planners prefer a repaired timetable whose quality is worsened as little as
possible while its structural difference is also as little as possible. This paper formulates this problem as one
of minimizing the quality degradation subject to an upper limit on the structural difference and presents one
simulated annealing algorithm and a set of integer programming-based algorithms to solve it. These algorithms
are tested on instances comprised of the ITC-2007 curriculum-based course timetabling test-bed and a set of
randomly generated disruption scenarios, where each disruption scenario is based on a set of four disruption
types that affect teacher and room availability. The results are analyzed with respect to two main goals,
one being repairing a timetable after a single disruption scenario, and the other being the calculation of an
estimated robustness of a solution based on a sample of disruption scenarios.