Harmony is a rehab robot exoskeleton, developed by researchers at the Cockrell School of Engineering at the University of Texas in Austin, that is a two-armed device that uses mechanical feedback and sensors to offer therapy to patients with neurological and spinal injuries.
The purpose of this robotic exoskeleton is to provide full upper-body therapy while mimicking natural motion, thereby allowing patients to learn to do things, such as eating or dressing, that can become very difficult in the wake of neurological and spinal injuries.
This rehab robot goes to show how years of cutting-edge research and development can lead to solutions that stand to change the lives of people with serious and debilitating injuries, allowing them to enjoy a semblance of normality in their day to day routines.
Rehab Robot Exoskeletons
The Harmony Robotic Exoskeleton is Designed For the Upper Body
Trend Themes
1. Rehabilitation Robotics - The trend of rehabilitation robotics presents opportunities for developing advanced exoskeletons that enhance therapy for patients with neurological and spinal injuries.
2. Mechanical Feedback Systems - The trend of mechanical feedback systems opens up possibilities for creating robotic exoskeletons that provide realistic and nuanced therapy experiences.
3. Enhanced Mobility Solutions - The trend of enhanced mobility solutions offers disruptive innovation opportunities for developing exoskeletons that enable patients to regain independence in their daily activities.
Industry Implications
1. Healthcare - The healthcare industry can explore the use of robotic exoskeletons to improve rehabilitation therapies for patients with neurological and spinal injuries.
2. Robotics - The robotics industry can capitalize on the development of robotic exoskeletons by incorporating mechanical feedback systems for various applications, including therapy.
3. Assistive Technology - The assistive technology industry can seize the opportunity to create enhanced mobility solutions through the development of innovative exoskeletons.