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|Year=2010 | |Year=2010 | ||
|Booktitle=Proceedings of the 8th International Conference on Simulated Evolution And Learning (SEAL-2010) | |Booktitle=Proceedings of the 8th International Conference on Simulated Evolution And Learning (SEAL-2010) | ||
+ | |Pages=289-298 | ||
|Publisher=Springer | |Publisher=Springer | ||
− | | | + | |Editor=Kalyanmoy Deb and others |
+ | |Series=LNCS | ||
+ | |Volume=6457 | ||
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{{Publikation Details | {{Publikation Details |
Version vom 7. Oktober 2010, 11:41 Uhr
XCS Revisited: A Novel Discovery Component for the eXtended Classifier System
XCS Revisited: A Novel Discovery Component for the eXtended Classifier System
Published: 2010
Herausgeber: Kalyanmoy Deb and others
Buchtitel: Proceedings of the 8th International Conference on Simulated Evolution And Learning (SEAL-2010)
Ausgabe: 6457
Reihe: LNCS
Seiten: 289-298
Verlag: Springer
Referierte Veröffentlichung
BibTeX
Kurzfassung
The eXtended Classifier System (XCS) is a rule-based evolutionary on-line learning system. Originally proposed by Wilson, XCS combines techniques from reinforcement learning and evolutionary optimization to learn a population of maximally general, but accurate condition-action rules. This paper focuses on the discovery component of XCS that is responsible for the creation and deletion of rules. A novel rule combining mechanism is proposed that infers maximally general rules from the existing population. Rule combining is evaluated for single- and multi-step learning problems using the well-known multiplexer, Woods, and Maze environments. Results indicate that the novel mechanism allows for faster learning rates and a reduced population size compared to the original XCS implementation.
Organic Computing, Maschinelles Lernen