CORDIS Project
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This project investigates how the brain represents temporal control of movement and explores artificial sensory guides to aid movement in individuals with Parkinson’s disease and stroke. It aims to enhance understanding of movement timing and improve skill acquisition and movement facilitation through engineered sensor…
Temporally controlling our movements to successfully perform an action (e.g. directing our eyes to read this text, picking up a pen, drinking from a cup) is something we do thousands of times a day, without thinking twice.
Given that many of these actions are self-paced, (i.e. no perceptual timing cues are provided by the environment) prospective control has to be determined by intrinsic neural mechanisms.
How is prospective information for temporal control represented in the brain?
What happens…
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