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Unsupervised Representation Learning in Deep Reinforcement Learning: A Review

Machine Learning 2024-05-31 v3

Abstract

This review addresses the problem of learning abstract representations of the measurement data in the context of Deep Reinforcement Learning (DRL). While the data are often ambiguous, high-dimensional, and complex to interpret, many dynamical systems can be effectively described by a low-dimensional set of state variables. Discovering these state variables from the data is a crucial aspect for (i) improving the data efficiency, robustness, and generalization of DRL methods, (ii) tackling the curse of dimensionality, and (iii) bringing interpretability and insights into black-box DRL. This review provides a comprehensive and complete overview of unsupervised representation learning in DRL by describing the main Deep Learning tools used for learning representations of the world, providing a systematic view of the method and principles, summarizing applications, benchmarks and evaluation strategies, and discussing open challenges and future directions.

Keywords

Cite

@article{arxiv.2208.14226,
  title  = {Unsupervised Representation Learning in Deep Reinforcement Learning: A Review},
  author = {Nicolò Botteghi and Mannes Poel and Christoph Brune},
  journal= {arXiv preprint arXiv:2208.14226},
  year   = {2024}
}
R2 v1 2026-06-28T00:24:03.780Z