Wearable robotics takes a step forward in improving the lives of patients with hemiparesis
Read MoreThe robotic prosthesis can better replicate the biomechanics of the human knee, ankle and toe, and potentially improve the quality-of-life for millions living with amputation.
Read MoreSensors, processors, motors, a transmission system and robotic joints enable users to control the prosthetic intuitively and continuously.
Read MoreU engineers have developed powered exoskeletons to help amputees walk with less effort.
Read MoreU mechanical engineering assistant professor Tommaso Lenzi received two grants to further advance the “Utah Bionic Leg” technology, a self-powered prosthetic limb with a computer processor and motorized joints in the ankle and knee that enable an amputee to walk with more power and vigor, as well as better balance.
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