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Paper detail

Zap Q-Learning With Nonlinear Function Approximation

Zap Q-learning is a recent class of reinforcement learning algorithms, motivated primarily as a means to accelerate convergence. Stability theory has been absent outside of two restrictive classes: the tabular setting, and optimal stopping. This paper introduces a new framework for analysis of a more general class of recursive algorithms known as stochastic approximation. Based on this general theory, it is shown that Zap Q-learning is consistent under a non-degeneracy assumption, even when the function approximation architecture is nonlinear. Zap Q-learning with neural network function approximation emerges as a special case, and is tested on examples from OpenAI Gym. Based on multiple experiments with a range of neural network sizes, it is found that the new algorithms converge quickly and are robust to choice of function approximation architecture.

preprint2020arXivOpen access
Shuhang ChenAdithya M. DevrajFan LuAna BušićSean P. Meyn
Systems and Controleess.SYMachine Learning
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Shuhang ChenAdithya M. DevrajFan LuAna BušićSean P. Meyn

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