ANR REM : Renforcement et mouvements oculaires (2013--2016)

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Reinforcement learning theory provides a general conceptual framework to account for behavioral changes. Recently the idea that reinforcement may be used to explain learning in motor responses has emerged. In particular, there is a growing interest in studying the effects of reinforcement learning in arm movements trajectories (Dam, Kording, & Wei, 2013), pointing movements (Trommershauser, Landy, & Maloney, 2006), or eye movements (Madelain, Champrenaut, & Chauvin, 2007; Madelain & Krauzlis, 2003b; Madelain, Paeye, & Wallman, 2011; Sugrue, Corrado, & Newsome, 2004; Takikawa, Kawagoe, Itoh, Nakahara, & Hikosaka, 2002; Xu-Wilson, Zee, & Shadmehr, 2009). However, and despite these few seminal studies, much is still unknown about both the details of the effects of reward on motor control and the underlying mechanisms. This proposal aims at a better understanding of how skilled motor responses are learned focusing on voluntary eye movements.

Although learning is often regarded as a restricted period of time during which a behavior undergo some changes we view learning as a continuously ongoing process. In the case of motor control every instance of a behavior is followed by some consequences that will affect some dimensions of the future response. These changes will in return affect the functional relations with the environment and this feedback process continues through lifetime. Therefore we do not regard motor learning as a special phase that allows the emergence of a particular motor response but as a continuous adaptation to the changes within the organism that affect the functional relations with her environment. This distinction is important because the learning situations that are experimentally tested over a short period of time may then be viewed as a condensed version of motor learning in the real life: the same adaptive processes are responsible for the changes in the response in both situations.

An important aspect of this fundamental research project is that the theoretical propositions addressed provide a new view on motor learning that departs from conventional wisdom. We expect to gain considerable knowledge on learning by constructing new experimental paradigms to collect behavioural data, implementing new learning models based on Bayesian theories and testing dynamical mathematical models of behavioural changes. Whichever way the results turn out, we anticipate that these studies will provide a better understanding of motor learning and provide a well-defined and solid framework for studying other forms of motor plasticity. If eye movement learning follows the rules of other operant responses (i.e. responses reinforced by their consequences), this will constitute a minor revolution in the study of motor control, both at the behavioral and neural levels, with important implications for the understanding of plasticity in other motor systems.

Personnes impliquées dans le projet / People involved in the project :

Etablissement / Organisation

Nom / Last name

Prénom / First name

Emploi actuel / Current position

Implication dans le projet en personne.mois** / Involvement in the project (PM)

Rôle & responsabilité dans le projet / Contribution to the project

Laboratoire Ureca - EA 1059, Université Lille 3

MADELAIN

Laurent

CR1 CNRS

27.0

Coordinateur.

Laboratoire Ureca - EA 1059, Université Lille 3

JOZEFOWIEZ

Jeremie

DR2 CNRS

9.0

CNRS-Aix-Marseille Université

Danion

Frederic

CR1 CNRS

9.0

CNRS-Aix-Marseille Université

MONTAGNINI

Anna

CR1 CNRS

9.0

CNRS-Aix-Marseille Université

PERRINET

Laurent

CR1 CNRS

9.0

The Marseille team

List of pages the REM category:


This work was supported by ANR project ANR-13-APPR-0008 "ANR R.E.M.".
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