Abstract
The dynamical systems approach addresses Bernstein’s degrees of freedom problem by assuming that the neuro-musculo-skeletal system transiently assembles and dismantles its components into functional units (or synergies) to meet task demands. Strikingly, little is known from a dynamical point of view about the functioning of the muscular sub-system in this process. To investigate the interaction between the dynamical organisation at muscular and behavioural levels, we searched for specific signatures of a phase transition in muscular coordination when a transition is displayed at the behavioural level. Our results provide evidence that, during Fitts’ task when behaviour switches to a different dynamical regime, muscular activation displays typical signatures of a phase transition; a reorganisation in muscular coordination patterns accompanied by a peak in the variability of muscle activation. This suggests that consistent changes occur in coordination processes across the different levels of description (i.e., behaviour and muscles). Specifically, in Fitts’ task, target size acts as a control parameter that induces a destabilisation and a reorganisation of coordination patterns at different levels of the neuro-musculo-skeletal system.
Highlights
The hypothesis that movement production relies on the emergence of coordinative structures in which the individual components are grouped together as functional units[1] has been widely echoed in the neuroscience community, notably by the proponents of the dynamical systems approach[2,3]
We found a breakpoint in the acceleration time (AT)/deceleration time (DT) ratio close to ID 5.1 mirroring the inflection point in the phase flow
The present study aimed to explore the dynamical organisation existing between behavioural and muscular levels in Fitts’ task
Summary
The hypothesis that movement production relies on the emergence of coordinative structures in which the individual components (e.g. neurons, muscles, joints, limbs) are grouped together as functional units[1] has been widely echoed in the neuroscience community, notably by the proponents of the dynamical systems approach[2,3] In this perspective, it is considered that the human neuro-musculo-skeletal system (NMSS) has the capacity of transiently assembling and dismantling its components into functional units (or synergies, modes, etc.) to (self-) organise into regimes to meet different task demands[2,3]. Whereas they mainly focussed on co-contraction, their results indicated a potential for reorganisation of muscular coordination with increasing accuracy constraints
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