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Discrete State-Action Abstraction via the Successor Representation

2022-06-07 17:37:30
Amnon Attali, Pedro Cisneros-Velarde, Marco Morales, Nancy M. Amato

Abstract

When reinforcement learning is applied with sparse rewards, agents must spend a prohibitively long time exploring the unknown environment without any learning signal. Abstraction is one approach that provides the agent with an intrinsic reward for transitioning in a latent space. Prior work focuses on dense continuous latent spaces, or requires the user to manually provide the representation. Our approach is the first for automatically learning a discrete abstraction of the underlying environment. Moreover, our method works on arbitrary input spaces, using an end-to-end trainable regularized successor representation model. For transitions between abstract states, we train a set of temporally extended actions in the form of options, i.e., an action abstraction. Our proposed algorithm, Discrete State-Action Abstraction (DSAA), iteratively swaps between training these options and using them to efficiently explore more of the environment to improve the state abstraction. As a result, our model is not only useful for transfer learning but also in the online learning setting. We empirically show that our agent is able to explore the environment and solve provided tasks more efficiently than baseline reinforcement learning algorithms. Our code is publicly available at \url{this https URL}.

Abstract (translated)

URL

https://arxiv.org/abs/2206.03467

PDF

https://arxiv.org/pdf/2206.03467.pdf


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