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Gradient-Based Learning Updates Improve XCS Performance in Multistep Problems
Martin V. Butz, David E. Goldberg, and Pier Luca Lanzi
Illinois Genetic Algorithms Laboratory (IlliGAL), University of Illinois at Urbana-Champaign, Urbana, IL, 61801butz@illigal.ge.uiuc.edu
deg@illigal.ge.uiuc.edu
lanzi@illigal.ge.uiuc.edu
Abstract. This paper introduces a gradient-based reward prediction update mechanism to the XCS classifier system as applied in neural-network type learning and function approximation mechanisms. A strong relation of XCS to tabular reinforcement learning and more importantly to neural-based reinforcement learning techniques is drawn. The resulting gradient-based XCS system learns more stable and reliable in previously investigated hard multistep problems. While the investigations are limited to the binary XCS classifier system, the applied gradient-based update mechanism appears also suitable for the real-valued XCS and other learning classifier systems.
LNCS 3103, p. 751 ff.
lncs@springer.de
© Springer-Verlag Berlin Heidelberg 2004