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Modeling the formation of social conventions from embodied real-time interactions

Author

Listed:
  • Ismael T Freire
  • Clement Moulin-Frier
  • Marti Sanchez-Fibla
  • Xerxes D Arsiwalla
  • Paul F M J Verschure

Abstract

What is the role of real-time control and learning in the formation of social conventions? To answer this question, we propose a computational model that matches human behavioral data in a social decision-making game that was analyzed both in discrete-time and continuous-time setups. Furthermore, unlike previous approaches, our model takes into account the role of sensorimotor control loops in embodied decision-making scenarios. For this purpose, we introduce the Control-based Reinforcement Learning (CRL) model. CRL is grounded in the Distributed Adaptive Control (DAC) theory of mind and brain, where low-level sensorimotor control is modulated through perceptual and behavioral learning in a layered structure. CRL follows these principles by implementing a feedback control loop handling the agent’s reactive behaviors (pre-wired reflexes), along with an Adaptive Layer that uses reinforcement learning to maximize long-term reward. We test our model in a multi-agent game-theoretic task in which coordination must be achieved to find an optimal solution. We show that CRL is able to reach human-level performance on standard game-theoretic metrics such as efficiency in acquiring rewards and fairness in reward distribution.

Suggested Citation

  • Ismael T Freire & Clement Moulin-Frier & Marti Sanchez-Fibla & Xerxes D Arsiwalla & Paul F M J Verschure, 2020. "Modeling the formation of social conventions from embodied real-time interactions," PLOS ONE, Public Library of Science, vol. 15(6), pages 1-22, June.
    • Handle: RePEc:plo:pone00:0234434
    DOI: 10.1371/journal.pone.0234434
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    References listed on IDEAS

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