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Detailed schedule
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Show all the abstracts
Show all the abstracts
Thursday 11:00:00 Timetabling in education and sport Room 126 - Chair: G. Vanden Berghe
Thursday 11:00:00 Transportation management Room 130 - Chair: F. Semet
Thursday 11:00:00 Networks Room 138 - Chair: B. Fortz
Thursday 11:00:00 Nonconvex optimization 1 Room 035 - Chair: F. Bach
Thursday 14:00:00 Constraint programming models 1 Room 126 - Chair: Y. Deville
Thursday 14:00:00 Vehicle routing Room 130 - Chair: S. Limbourg
Thursday 14:00:00 Combinatorial optimization and IP applications Room 138 - Chair: Q. Louveaux
Thursday 14:00:00 Nonconvex Optimization 2 Room 035 - Chair: R. Sepulchre
Thursday 16:10:00 Constraint programming models 2 Room 126 - Chair: P. Schaus
Thursday 16:10:00 Performance modeling Room 130 - Chair: G. Janssens
Thursday 16:10:00 Scheduling Room 138 - Chair: K. Sorensen
Thursday 16:10:00 Planning under uncertainty Room 035 - Chair: R. Leus
Friday 09:00:00 Metaheuristics Room 126 - Chair: J. Teghem
Friday 09:25:00 Production and distribution (9:25) Room 130 - Chair: Y. Arda
Friday 09:00:00 Multiple criteria Room 138 - Chair: R. Bisdorff
Friday 09:25:00 Stochastic models (9:25) Room 035 - Chair: L. Esch
Friday 11:00:00 Constraint programming and Supply Chain Management Room 126 - Chair: Y. Deville
Friday 11:00:00 OR in health management Room 130 - Chair: P. De Causmaecker
Friday 11:00:00 Rankings and importance indices Room 138 - Chair: JL. Marichal
Friday 11:00:00 Queueing Room 035 - Chair: S. Wittevrongel
Friday 15:10:00 Optimization software Room 126 - Chair: E. Loute
Friday 15:10:00 Integrated operations planning Room 130 - Chair: B. Raa
Friday 15:10:00 Cycles in graphs Room 138 - Chair: F. Spieksma
- On detecting and enumerating chordless circuits in a digraph
Raymond Bisdorff (University of Luxembourg)
- Coloring Graphs to Avoid Monochromatic Cycles
Fabrice Talla Nobibon (Katholieke Universiteit Leuven) Co-authors: C. Hurkens, R. Leus, FCR. Spieksma Abstract: We consider the problem of deciding whether a given directed graph
can be vertex-partitioned into two acyclic subgraphs. Applications
of this problem include testing rationality of collective
consumption behavior, a subject in micro-economics. We present an
exact algorithm called a branch-and-check algorithm, which is able
to solve instances of considerable size within few seconds. We
study empirically the transition from a high to a low probability
of YES answer as function of some problem parameters. We identify
classes of directed graphs for which the problem is easy and prove
that the existence of a constant factor approximation algorithm is
unlikely for an optimization version which maximizes the number of
vertices that can be colored using two colors while avoiding
monochromatic cycles.
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