Rehabilitation Robotics

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Visible to the public CPS: TTP Option: Synergy: Human-Machine Interaction with Mobility Enhancing Soft Exosuits

Stroke is a leading cause of long-term disability, with 80% of survivors having locomotor impairments. Individuals after stroke typically present with hemiparetic gait, characterized as slow, asymmetric, and inefficient. Our lab has been developing soft wearable cyber-physical sytems, called soft exosuits, that interface with paretic limb after stroke through soft and conformal textile-based structures to assist hemiparetic walking. Soft exosuits transmit mechanical power to human body joints via interaction between functional textiles worn on the body and Bowden cable retraction.

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Visible to the public Design and development of a cybernetic exoskeleton for hand-wrist rehabilitation through integration of human passive properties

Abstract:

Robotic devices are excellent candidates for delivering repetitive and intensive practice that can restore functional use of the upper limbs, even years after a stroke. Rehabilitation of the wrist and hand in particular are critical for recovery of function, since hands are the primary interface with the world.