Effective Multi-step Temporal-Difference Learning for Non-Linear Function Approximation

August 18, 2016 Β· Declared Dead Β· πŸ› arXiv.org

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Authors Harm van Seijen arXiv ID 1608.05151 Category cs.AI: Artificial Intelligence Citations 15 Venue arXiv.org Last Checked 4 months ago
Abstract
Multi-step temporal-difference (TD) learning, where the update targets contain information from multiple time steps ahead, is one of the most popular forms of TD learning for linear function approximation. The reason is that multi-step methods often yield substantially better performance than their single-step counter-parts, due to a lower bias of the update targets. For non-linear function approximation, however, single-step methods appear to be the norm. Part of the reason could be that on many domains the popular multi-step methods TD($Ξ»$) and Sarsa($Ξ»$) do not perform well when combined with non-linear function approximation. In particular, they are very susceptible to divergence of value estimates. In this paper, we identify the reason behind this. Furthermore, based on our analysis, we propose a new multi-step TD method for non-linear function approximation that addresses this issue. We confirm the effectiveness of our method using two benchmark tasks with neural networks as function approximation.
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