The University of Tokyo / Japan’s National Institute of Population / Tokyo University of Science Shows / /
IndustryTerm
physical therapy devices / electronics system / wireless technology / mobile physical therapy device / biomechatronic technology / metal frame / insurance / high energy density / transformative robotics technology / wireless power / wireless exoskeletons / software-based stops / electronics / physical therapy applications / exoskeletal systems / at-home solution / stainless steel rods / structural devices / real-time joint tracking / electronics system takes / /
Organization
MIT / Japan’s National Institute of Population and Social Security Research / University of Tokyo / American Heart Association / Kessler Foundation / Tokyo University of Science Shows / /
Person
Nick McGill / Peter Kempster / Nick Parrotta / Upper-Body Exoskeleton By Elizabeth Beattie / /
Position
velocity-based controller / therapist for further analysis / handheld controller / therapist to control the arm / physical therapist / controller / /
Titan: A Powered, Upper-Body Exoskeleton By Elizabeth Beattie, Nick McGill, Nick Parrotta, and Niko Vladimirov Abstract As biomechatronic technology has matured over the past fifty years, exoskeletons have