Multi-step Greedy Reinforcement Learning Algorithms
Abstract
Multi-step greedy policies have been extensively used in model-based reinforcement learning (RL), both when a model of the environment is available (e.g.,~in the game of Go) and when it is learned. In this paper, we explore their benefits in model-free RL, when employed using multi-step dynamic programming algorithms: -Policy Iteration (-PI) and -Value Iteration (-VI). These methods iteratively compute the next policy (-PI) and value function (-VI) by solving a surrogate decision problem with a shaped reward and a smaller discount factor. We derive model-free RL algorithms based on -PI and -VI in which the surrogate problem can be solved by any discrete or continuous action RL method, such as DQN and TRPO. We identify the importance of a hyper-parameter that controls the extent to which the surrogate problem is solved and suggest a way to set this parameter. When evaluated on a range of Atari and MuJoCo benchmark tasks, our results indicate that for the right range of , our algorithms outperform DQN and TRPO. This shows that our multi-step greedy algorithms are general enough to be applied over any existing RL algorithm and can significantly improve its performance.
Keywords
Cite
@article{arxiv.1910.02919,
title = {Multi-step Greedy Reinforcement Learning Algorithms},
author = {Manan Tomar and Yonathan Efroni and Mohammad Ghavamzadeh},
journal= {arXiv preprint arXiv:1910.02919},
year = {2020}
}
Comments
ICML 2020