- / The main topic of this thesis is the combination of metaheuristics and other methods for
solving combinatorial optimization problems (COPs). In particular, focus is given in a
special category of COPs known as timetabling problems. Timetabling problems belong
in general to the class of NP-hard problems meaning that exact methods are usually
unable to solve problem instances with sizes of practical importance. In the first three
chapters optimization problems are analyzed and four major disciplines regarding
optimization approaches are examined: Mathematical Programming, Artificial
Intelligence, Computational Intelligence and Metaheuristics. Borders are not always
clear between them while a recent trend is to hybridize approaches originating from the
same or different disciplines.
Even with the progress in optimization that occurred during the last decades
programming successful optimization application still is an intricate mission.
Nevertheless, software developing techniques, open source software and exploitation of
the processing power of modern hardware can assist in constructing applications that
are expected to be of much benefit for their users. Key ideas of achieving this are
described in Chapter 4.
The first application, presented in Chapter 5, is a pump scheduling system for a water
distribution network. The objective is to achieve a way of operation for the pumps of
each reservoir that results in diminished electricity cost. A model of the problem was
constructed and the metaheuristic technique of genetic algorithms with the addition of
several heuristics solved the problem.
The second application, presented in Chapter 6, is the examination timetabling problem
for Universities. Educational timetabling problems in general attract much interest from
the scientific community. Our approach targeted various models of the examination
timetabling problem and constituted by two major phases: construction and
improvement. A number of metaheuristics were hybridized (Simulated Annealing,
GRASP, VNS, Taboo Search and others) while certain sub-problems were solved using
exact methods (Integer Programming). The results that we achieved in known datasets
for evaluating the performance of such methods were most promising. In particular, for
the publicly available datasets of the second International Timetabling Competition our
approach achieved the best published score for 6 out of 8 datasets.
The third application, presented in Chapter 7, is the construction of timetables for Greek
high schools. A model of the problem that had publicly available problem instances and
published results was used. Better results were able to be obtained by reformulating the
problem and subsequently using a branch and cut approach implemented using entirely
open source software.
In summary, successful results of our approaches suggest that metaheuristics and
hybridized metaheuristics with other metaheuristic or exact methods appears to be a
promising research direction for handling complex combinatorial optimization
problems.
| Identifer | oai:union.ndltd.org:upatras.gr/oai:nemertes:10889/2524 |
| Date | 11 January 2010 |
| Creators | Γκόγκος, Χρήστος |
| Contributors | Χούσος, Ευθύμιος, Gkogkos, Christos, Χούσος, Ευθύμιος, Σερπάνος, Δημήτριος, Δερματάς, Ευάγγελος, Δασκαλάκη, Σοφία, Καρακαπιλίδης, Νικόλαος, Αλεξανδρίδης, Αντώνιος, Ταραντίλης, Χρήστος |
| Source Sets | University of Patras |
| Language | gr |
| Detected Language | English |
| Type | Thesis |
| Rights | 6 |
| Relation | Η ΒΥΠ διαθέτει αντίτυπο της διατριβής σε έντυπη μορφή στο βιβλιοστάσιο διδακτορικών διατριβών που βρίσκεται στο ισόγειο του κτιρίου της. |
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