Residual kinetic imaging: a versatile interface for prosthetic control

Sam L. Phillips; William Craelius

doi:10.1017/S0263574704001298

Abstract

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We studied the pressure patterns in the residual limbs of transradial amputees during their voluntary commands for finger taps. Topographic maps of pressures exerted against the hard prosthetic socket were registered with an array of 32 pressure sensors, to produce residual kinetic images (RKIs) of the limb. Results with 2 untrained subjects demonstrated that RKIs are reliable decoders of efferent commands. Coupled with a trained filter, RKIs can provide biomimetic control over multiple degrees of freedom.

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Residual kinetic imaging: a versatile interface for prosthetic control

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Residual kinetic imaging: a versatile interface for prosthetic control

Abstract

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