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Chapitre D'ouvrage Année : 2019

Optimality and modularity in human movement: from optimal control to muscle synergies

Résumé

In this chapter, we review recent work related to the optimal and modular control hypotheses for human movement. Optimal control theory is often thought to imply that the brain continuously computes global optima for each motor task it faces. Modular control theory typically assumes that the brain explicitly stores genuine synergies in specific neural circuits whose combined recruitment yields task-effective motor inputs to muscles. Put this way, these two influential motor control theories are pushed to extreme positions. A more nuanced view, framed within Marr’s tri-level taxonomy of a computational theory of movement neuroscience, is discussed here. We argue that optimal control is best viewed as helping to understand “why” certain movements are preferred over others but does not say much about how the brain would practically trigger optimal strategies. We also argue that dimensionality reduction found in muscle activities may be a by-product of optimality and cannot be attributed to neurally hardwired synergies stricto sensu, in particular when the synergies are extracted from simple factorization algorithms applied to electromyographic data; their putative nature is indeed strongly dictated by the methodology itself. Hence, more modeling work is required to critically test the modularity hypothesis and assess its potential neural origins. We propose that an adequate mathematical formulation of hierarchical motor control could help to bridge the gap between optimality and modularity, thereby accounting for the most appealing aspects of the human motor controller that robotic controllers would like to mimic: rapidity, efficiency, and robustness.
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Dates et versions

hal-01744832 , version 1 (27-03-2018)

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Citer

B. Berret, Ioannis Delis, Jeremie Gaveau, Frédéric Jean. Optimality and modularity in human movement: from optimal control to muscle synergies. Venture G.; Laumond JP.; Watier B. Biomechanics of Anthropomorphic Systems, 124, Springer, 2019, Springer Tracts in Advanced Robotics, 978-3-319-93869-1. ⟨10.1007/978-3-319-93870-7_6⟩. ⟨hal-01744832⟩
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