AI Bibliography |
Watkins, C. J., & Dayan, P. (1992). Q-learning. Machine learning, 8(3-4), 279–292. |
Resource type: Journal Article BibTeX citation key: Watkins1992 View all bibliographic details |
Categories: Artificial Intelligence, Computer Science, Data Sciences, General, Mathematics Subcategories: AI transfer learning, Big data, Deep learning, Machine learning, Markov models, Q-learning Creators: Dayan, Watkins Publisher: Collection: Machine learning |
Attachments |
Abstract |
~-learning (Watkins, 1989) is a simple way for agents to learn how to act optimally in controlled Markovian domains. It amounts to an incremental method for dynamic programming which imposes limited computational demands. It works by successively improving its evaluations of the quality of particular actions at particular states. This paper presents and proves in detail a convergence theorem for ~-learning based on that outlined in Watkins (1989). We show that 0~-learning converges to the optimum action-values with probability 1 so long as all actions are repeatedly sampled in all states and the action-values are represented discretely. We also sketch extensions to the cases of non-discounted, but absorbing, Markov environments, and where many O~ values can be changed each iteration, rather than just one.
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