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Double XCSF on Target?

Connor Schönberner1, Sven Tomforde2

  • 1Intelligent Systems Group, Kiel University, Kiel, 24118, Germany cos@informatik.uni-kiel.de.

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|December 15, 2025
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Summary
This summary is machine-generated.

This study enhances the XCS Classifier System (XCS) for Reinforcement Learning (RL) by integrating Deep Reinforcement Learning mechanisms. Target and double target prediction show promise in improving XCS performance and reducing variance.

Keywords:
Double Q-learningExperience ReplayGenetic AlgorithmsLearning Classifier SystemsNeural PredictionReinforcement LearningXCS

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Area of Science:

  • Artificial Intelligence
  • Machine Learning
  • Reinforcement Learning

Background:

  • The XCS Classifier System (XCS), a prominent Learning Classifier System (LCS), initially focused on Reinforcement Learning (RL).
  • Recent research has explored XCS variants like XCSF, but few Q-learning advancements beyond Experience Replay have been integrated.
  • There is a need to enhance XCS's RL capabilities by incorporating modern Q-learning derivatives.

Purpose of the Study:

  • To investigate the integration of Deep Reinforcement Learning (DRL) mechanisms into the XCS Classifier System (XCSF) for improved RL performance.
  • To address issues of learning stability and overestimation in XCSF by introducing target prediction and Double Q-learning mechanisms.
  • To evaluate the effectiveness of these extensions on benchmark RL problems.

Main Methods:

  • Implemented three extensions inspired by Q-learning derivatives: DQN-inspired target prediction, Double DQN-inspired double target prediction, and a Double Q-learning mechanism.
  • Applied these extensions to the Maze Problem, Frozen Lake, and Cart Pole environments.
  • Assessed performance improvements and variance reduction compared to baseline XCSF.

Main Results:

  • The Double Q-learning mechanism did not yield significant improvements.
  • Target prediction and double target prediction demonstrated observable performance enhancements and variance reduction in XCSF.
  • Results indicate that adapting DRL mechanisms can be beneficial for XCSF, though improvements are non-trivial.

Conclusions:

  • Integrating target prediction and double target prediction from DRL shows potential for enhancing XCSF performance and stability in RL tasks.
  • The Double Q-learning mechanism, however, did not prove effective in this context.
  • Further research into DRL adaptations for LCSs like XCSF is warranted to unlock their full RL potential.