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Policy Learning with Constraints in Model-free Reinforcement Learning: A Survey

Yongshuai Liu, Avishai Halev, Xin Liu

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Abstract

Reinforcement Learning (RL) algorithms have had tremendous success in simulated domains. These algorithms, however, often cannot be directly applied to physical systems, especially in cases where there are constraints to satisfy (e.g. to ensure safety or limit resource consumption). In standard RL, the agent is incentivized to explore any policy with the sole goal of maximizing reward; in the real world, however, ensuring satisfaction of certain constraints in the process is also necessary and essential. In this article, we overview existing approaches addressing constraints in model-free reinforcement learning. We model the problem of learning with constraints as a Constrained Markov Decision Process and consider two main types of constraints: cumulative and instantaneous. We summarize existing approaches and discuss their pros and cons. To evaluate policy performance under constraints, we introduce a set of standard benchmarks and metrics. We also summarize limitations of current methods and present open questions for future research.

Topics & Concepts

Reinforcement learningComputer scienceMarkov decision processSet (abstract data type)Process (computing)Limit (mathematics)Markov processArtificial intelligenceMachine learningMathematicsProgramming languageStatisticsMathematical analysisOperating systemReinforcement Learning in Robotics
Policy Learning with Constraints in Model-free Reinforcement Learning: A Survey | Litcius