Title :
Learning Classifier System Ensembles With Rule-Sharing
Author :
Bull, Larry ; Studley, Matthew ; Bagnall, Anthony ; Whittley, Ian
Author_Institution :
Univ. of the West of England, Bristol
Abstract :
This paper presents an investigation into exploiting the population-based nature of learning classifier systems (LCSs) for their use within highly parallel systems. In particular, the use of simple payoff and accuracy-based LCSs within the ensemble machine approach is examined. Results indicate that inclusion of a rule migration mechanism inspired by parallel genetic algorithms is an effective way to improve learning speed in comparison to equivalent single systems. Presentation of a mechanism which exploits the underlying niche-based generalization mechanism of accuracy-based systems is then shown to further improve their performance, particularly, as task complexity increases. This is not found to be the case for payoff-based systems. Finally, considerably better than linear speedup is demonstrated with the accuracy-based systems on a version of the well-known Boolean logic benchmark task used throughout.
Keywords :
Boolean algebra; data mining; genetic algorithms; learning (artificial intelligence); parallel algorithms; pattern classification; Boolean logic; data mining; genetic algorithm; learning classifier system; parallel system; rule migration mechanism; Boolean functions; Data analysis; Data mining; Evolutionary computation; Genetic algorithms; Large-scale systems; Machine learning; Machine learning algorithms; Parallel processing; Production systems; Data mining; genetic algorithms (GAs); parallel systems; reinforcement learning;
Journal_Title :
Evolutionary Computation, IEEE Transactions on
DOI :
10.1109/TEVC.2006.885163
