Searched for: subject:"sensory%5C+feedback"
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document
Yang, Y. (author), Guliyev, Bekir (author), Schouten, A.C. (author)
Mechanical perturbations applied to the wrist joint typically evoke a stereotypical sequence of cortical and muscle responses. The early cortical responses (<100 ms) are thought be involved in the “rapid” transcortical reaction to the perturbation while the late cortical responses (>100 ms) are related to the “slow” transcortical reaction....
journal article 2017
document
Yang, Y. (author), Dewald, J.P.A. (author), van der Helm, F.C.T. (author), Schouten, A.C. (author)
Neural coupling between the central nervous system and the periphery is essential for the neural control of movement. Corticomuscular coherence is a popular linear technique to assess synchronised oscillatory activity in the sensorimotor system. This oscillatory coupling originates from ascending somatosensory feedback and descending motor...
journal article 2017
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Van Drunen, P. (author)
doctoral thesis 2015
document
Tucker, M.R. (author), Olivier, J. (author), Pagel, A. (author), Bleuler, H. (author), Bouri, M. (author), Lambercy, O. (author), Del R Millan, J. (author), Riener, R. (author), Vallery, H. (author), Gassert, R. (author)
Technological advancements have led to the development of numerous wearable robotic devices for the physical assistance and restoration of human locomotion. While many challenges remain with respect to the mechanical design of such devices, it is at least equally challenging and important to develop strategies to control them in concert with the...
journal article 2015
Searched for: subject:"sensory%5C+feedback"
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