DIRECT CORTICAL CONTROL OF 3D NEUROPROSTHETIC DEVICES PDF

Three-dimensional (3D) movement of neuroprosthetic devices can be controlled by the activity of cortical neurons when appropriate algorithms. Three-dimensional (3D) movement of neuroprosthetic devices can be controlled by the activity of cortical neurons when appropriate algorithms are used to. we can design a cortical decoding algorithm to generate movements of a nueroprosthetic device. But Direct cortical control of 3D neuroprosthetic devices – p.

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Direct cortical control of 3D neuroprosthetic devices. Taylor and Stephen I.

Direct cortical control of 3D neuroprosthetic devices.

Helms Tillery and Andrew B. TaylorStephen I. Helms TilleryAndrew B. Schwartz Published in Science Three-dimensional 3D movement of neuroprosthetic devices can be controlled by the activity of cortical neurons when appropriate algorithms are used to decode intended movement in real time.

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Previous studies assumed that neurons maintain fixed tuning properties, and the studies used subjects who were unaware of the movements predicted by their recorded units.

In this study, subjects had real-time visual feedback of their brain-controlled trajectories. This paper has highly influenced 94 other papers. From This Paper Figures, tables, and topics from this paper.

Movement Search for additional papers on this topic. Topics Discussed in This Paper. Citations Publications citing this paper.

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ShanechiAmy L. OrsbornHelene G. MoormanSuraj GowdaJose M. Carmena 36th Annual International Conference of the….

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Improved decoding methods to reduce reaction time in brain-machine interface systems Olga Mutter A closed-loop human simulator for investigating the role of feedback control in brain-machine interfaces.

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ChestekStephen I. RyuKrishna V. Shenoy Journal of neurophysiology O’DohertyMikhail A. LebedevMiguel A. Nicolelis Neural Computation References Publications referenced by this paper. Equilibrium information from nonequilibrium measurements in an experimental test of Jarzynski’s equality.

Direct cortical control of 3D neuroprosthetic devices.

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