The Knee Perturbator is a curiously named and highly intelligently designed wearable robot, designed by a group of scientists and engineers at ETH Zurich and the National Center of Competence in Research Robotics, that can help inspire the building of better prosthetics.
That may not sound altogether peculiar until you consider that the robot does this by kicking wearers in the knee, before studying how they respond. By kicking the wearer's knee, the exoskeleton assesses the wearer's stride by studying how much they compensate in response to a knock.
Ultimately, this exoskeleton helps create data that can be integrated into prosthetic limbs and braces, helping aid in the rehabilitation of people who have lost a leg or are recovering from serious leg injuries.
Knee-Knocking Exoskeletons
The Knee Perturbator Intentionally Knocks Wearers On Their Knees
Trend Themes
1. Wearable Robotics - The development of exoskeletons such as the Knee Perturbator is pushing the innovation of wearable robotics, creating opportunities for enhancing prosthetics and rehabilitation processes.
2. Data-driven Prosthetics - By collecting data on how the body responds to knocks and adjustments in stride, the Knee Perturbator and similar technologies are pushing for more data-driven prosthetics.
3. Exoskeleton-assisted Rehabilitation - Exoskeletons like the Knee Perturbator are opening up possibilities for more effective assisted rehabilitation techniques.
Industry Implications
1. Healthcare - The healthcare industry, especially those involved in prosthesis development and physical therapy, can benefit from the technological advancements in exoskeleton-assisted rehabilitation.
2. Robotics - The development of exoskeletons like the Knee Perturbator are identifying new pathways for robotics, and integrating human-robot interaction in various fields.
3. Engineering - The design and creation of wearable robotics such as the Knee Perturbator necessitates interdisciplinary approaches and partnerships across the field of engineering.