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arxiv 1703.01732 v1 pith:673E4YWY submitted 2017-03-06 cs.LG

Surprise-Based Intrinsic Motivation for Deep Reinforcement Learning

classification cs.LG
keywords learningexplorationintrinsicmotivationreinforcementrewardstaskscomplex
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Exploration in complex domains is a key challenge in reinforcement learning, especially for tasks with very sparse rewards. Recent successes in deep reinforcement learning have been achieved mostly using simple heuristic exploration strategies such as $\epsilon$-greedy action selection or Gaussian control noise, but there are many tasks where these methods are insufficient to make any learning progress. Here, we consider more complex heuristics: efficient and scalable exploration strategies that maximize a notion of an agent's surprise about its experiences via intrinsic motivation. We propose to learn a model of the MDP transition probabilities concurrently with the policy, and to form intrinsic rewards that approximate the KL-divergence of the true transition probabilities from the learned model. One of our approximations results in using surprisal as intrinsic motivation, while the other gives the $k$-step learning progress. We show that our incentives enable agents to succeed in a wide range of environments with high-dimensional state spaces and very sparse rewards, including continuous control tasks and games in the Atari RAM domain, outperforming several other heuristic exploration techniques.

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Cited by 4 Pith papers

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