Emotion in reinforcement learning agents and robots: A survey

Thomas M. Moerland, Joost Broekens, Catholijn M. Jonker

Research output: Contribution to journalArticleScientificpeer-review

84 Citations (Scopus)
169 Downloads (Pure)

Abstract

This article provides the first survey of computational models of emotion in reinforcement learning (RL) agents. The survey focuses on agent/robot emotions, and mostly ignores human user emotions. Emotions are recognized as functional in decision-making by influencing motivation and action selection. Therefore, computational emotion models are usually grounded in the agent’s decision making architecture, of which RL is an important subclass. Studying emotions in RL-based agents is useful for three research fields. For machine learning (ML) researchers, emotion models may improve learning efficiency. For the interactive ML and human–robot interaction community, emotions can communicate state and enhance user investment. Lastly, it allows affective modelling researchers to investigate their emotion theories in a successful AI agent class. This survey provides background on emotion theory and RL. It systematically addresses (1) from what underlying dimensions (e.g. homeostasis, appraisal) emotions can be derived and how these can be modelled in RL-agents, (2) what types of emotions have been derived from these dimensions, and (3) how these emotions may either influence the learning efficiency of the agent or be useful as social signals. We also systematically compare evaluation criteria, and draw connections to important RL sub-domains like (intrinsic) motivation and model-based RL. In short, this survey provides both a practical overview for engineers wanting to implement emotions in their RL agents, and identifies challenges and directions for future emotion-RL research.
Original languageEnglish
Pages (from-to)443-480
Number of pages38
JournalMachine Learning
Volume107
Issue number2
DOIs
Publication statusPublished - 2018

Keywords

  • Reinforcement learning
  • Emotion
  • Motivation
  • Agent
  • Robot

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