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An Information Theoretic Approach to Interaction-Grounded Learning

Machine Learning 2024-02-05 v2

Abstract

Reinforcement learning (RL) problems where the learner attempts to infer an unobserved reward from some feedback variables have been studied in several recent papers. The setting of Interaction-Grounded Learning (IGL) is an example of such feedback-based RL tasks where the learner optimizes the return by inferring latent binary rewards from the interaction with the environment. In the IGL setting, a relevant assumption used in the RL literature is that the feedback variable YY is conditionally independent of the context-action (X,A)(X,A) given the latent reward RR. In this work, we propose Variational Information-based IGL (VI-IGL) as an information-theoretic method to enforce the conditional independence assumption in the IGL-based RL problem. The VI-IGL framework learns a reward decoder using an information-based objective based on the conditional mutual information (MI) between (X,A)(X,A) and YY. To estimate and optimize the information-based terms for the continuous random variables in the RL problem, VI-IGL leverages the variational representation of mutual information to obtain a min-max optimization problem. Also, we extend the VI-IGL framework to general ff-Information measures leading to the generalized ff-VI-IGL framework for the IGL-based RL problems. We present numerical results on several reinforcement learning settings indicating an improved performance compared to the existing IGL-based RL algorithm.

Keywords

Cite

@article{arxiv.2401.05015,
  title  = {An Information Theoretic Approach to Interaction-Grounded Learning},
  author = {Xiaoyan Hu and Farzan Farnia and Ho-fung Leung},
  journal= {arXiv preprint arXiv:2401.05015},
  year   = {2024}
}
R2 v1 2026-06-28T14:13:01.300Z