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Temporal difference models describe higher-order learning in humans

Author

Listed:
  • Ben Seymour

    (Wellcome Department of Imaging Neuroscience)

  • John P. O'Doherty

    (Wellcome Department of Imaging Neuroscience)

  • Peter Dayan

    (Gatsby Computational Neuroscience Unit, Alexandra House)

  • Martin Koltzenburg

    (University College London)

  • Anthony K. Jones

    (University of Manchester Rheumatic Diseases Centre, Hope Hospital)

  • Raymond J. Dolan

    (Wellcome Department of Imaging Neuroscience)

  • Karl J. Friston

    (Wellcome Department of Imaging Neuroscience)

  • Richard S. Frackowiak

    (Wellcome Department of Imaging Neuroscience
    Fondazione Santa Lucia)

Abstract

The ability to use environmental stimuli to predict impending harm is critical for survival. Such predictions should be available as early as they are reliable. In pavlovian conditioning, chains of successively earlier predictors are studied in terms of higher-order relationships, and have inspired computational theories such as temporal difference learning1. However, there is at present no adequate neurobiological account of how this learning occurs. Here, in a functional magnetic resonance imaging (fMRI) study of higher-order aversive conditioning, we describe a key computational strategy that humans use to learn predictions about pain. We show that neural activity in the ventral striatum and the anterior insula displays a marked correspondence to the signals for sequential learning predicted by temporal difference models. This result reveals a flexible aversive learning process ideally suited to the changing and uncertain nature of real-world environments. Taken with existing data on reward learning2, our results suggest a critical role for the ventral striatum in integrating complex appetitive and aversive predictions to coordinate behaviour.

Suggested Citation

  • Ben Seymour & John P. O'Doherty & Peter Dayan & Martin Koltzenburg & Anthony K. Jones & Raymond J. Dolan & Karl J. Friston & Richard S. Frackowiak, 2004. "Temporal difference models describe higher-order learning in humans," Nature, Nature, vol. 429(6992), pages 664-667, June.
    • Handle: RePEc:nat:nature:v:429:y:2004:i:6992:d:10.1038_nature02581
    DOI: 10.1038/nature02581
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    Cited by:

    1. Kuhnen, Camelia M. & Knutson, Brian, 2011. "The Influence of Affect on Beliefs, Preferences, and Financial Decisions," Journal of Financial and Quantitative Analysis, Cambridge University Press, vol. 46(3), pages 605-626, June.
    2. Wang, Xu-Wen & Nie, Sen & Jiang, Luo-Luo & Wang, Bing-Hong & Chen, Shi-Ming, 2017. "Role of delay-based reward in the spatial cooperation," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 465(C), pages 153-158.
    3. Miles S. Kimball & Robert J. Willis, 2023. "Utility and Happiness," NBER Working Papers 31707, National Bureau of Economic Research, Inc.
    4. Yves Arrighi & David Crainich & Véronique Flambard & Sophie Massin, 2022. "Personalized information and willingness to pay for non-financial risk prevention: An experiment," Journal of Risk and Uncertainty, Springer, vol. 65(1), pages 57-82, August.
    5. Hytönen, Kaisa & Baltussen, Guido & van den Assem, Martijn J. & Klucharev, Vasily & Sanfey, Alan G. & Smidts, Ale, 2014. "Path dependence in risky choice: Affective and deliberative processes in brain and behavior," Journal of Economic Behavior & Organization, Elsevier, vol. 107(PB), pages 566-581.
    6. Brent A Field & Cara L Buck & Samuel M McClure & Leigh E Nystrom & Daniel Kahneman & Jonathan D Cohen, 2015. "Attentional Modulation of Brain Responses to Primary Appetitive and Aversive Stimuli," PLOS ONE, Public Library of Science, vol. 10(7), pages 1-13, July.
    7. Johannes Friedrich & Walter Senn, 2012. "Spike-based Decision Learning of Nash Equilibria in Two-Player Games," PLOS Computational Biology, Public Library of Science, vol. 8(9), pages 1-12, September.
    8. Kishida, Kenneth T. & Montague, P. Read, 2013. "Economic probes of mental function and the extraction of computational phenotypes," Journal of Economic Behavior & Organization, Elsevier, vol. 94(C), pages 234-241.
    9. Engelmann, Jan B. & Damaraju, Eswar & Padmala, Srikanth & Pessoa, Luiz, 2009. "Combined effects of attention and motivation on visual task performance: transient and sustained motivational effects," MPRA Paper 52133, University Library of Munich, Germany.
    10. Zixuan Tang & Chen Qu & Yang Hu & Julien Benistant & Frederic Moisan & Edmund Derrington & Jean-Claude Dreher, 2023. "Strengths of social ties modulate brain computations for third-party punishment," Post-Print hal-04325737, HAL.
    11. Laurens Winkelmeier & Carla Filosa & Renée Hartig & Max Scheller & Markus Sack & Jonathan R. Reinwald & Robert Becker & David Wolf & Martin Fungisai Gerchen & Alexander Sartorius & Andreas Meyer-Linde, 2022. "Striatal hub of dynamic and stabilized prediction coding in forebrain networks for olfactory reinforcement learning," Nature Communications, Nature, vol. 13(1), pages 1-21, December.

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