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Rehabilitation robotics is a field of research dedicated to understanding and augmenting rehabilitation through the application of robotic devices. Rehabilitation robotics includes development of robotic devices tailored for assisting different sensorimotor functions [1] (e.g. arm, hand, [2] [3] leg, ankle [4]), development of different schemes of assisting therapeutic training, [5] and ...
The goal of the LOPES project (LOwer-extremity Powered ExoSkeleton) is to design and implement a gait rehabilitation robot for treadmill training. The target group consists of people who have had a stroke and have impaired motor control.
A soft exoskeleton, also known as a soft wearable robot or a soft robotic exosuit, is a type of wearable robotic device designed to augment and enhance the physical abilities of the human body. Unlike traditional rigid exoskeletons , which are typically made of hard materials like metal and are worn over the user's limbs, soft exoskeletons are ...
Dr Peter Anderton, a stroke consultant at the trust, said: "Alongside [the robotic therapy suite] and the newly acquired music therapy, the service is heading towards becoming a hub of excellence ...
Vanderbilt University began testing its exoskeleton with paraplegics and medical experts at a rehabilitation center in Atlanta, Georgia, in 2010. [12] In October 2012, Parker Hannifin signed an exclusive licensing agreement with Vanderbilt University for the right to develop and manufacture a commercial version of the exoskeleton, which it ...
One of these developments was the Orthos-1 robotic complex for restoring locomotor functions of the hands. The complex is designed for post-stroke and post-traumatic rehabilitation. The technology is based on the ability of the cerebral cortex to spontaneously and modulated reorganization of neuronal networks due to neoplastic processes.