Link for Live Seminar
Link for Recorded seminars ? 2020/2021 school year
Wearable robots for physical augmentation of humans are the new frontier of robotics, but they are typically rigid, bulky, and limited in lab settings for steady-state walking assistance. To overcome those challenges, the first part of the talk will present a new design paradigm that leverages high torque density motors to enable the electrification of robotic actuation. Thus, our rigid and soft robots are able to achieve unprecedented performances, including most lightweight powered exoskeleton, high compliance, and high bandwidth human-robot interaction. The second part of the talk will focus on AI-powered controllers that estimate human dynamics and assist multimodal locomotion with superhumanperformance to walk longer, squat more, jump higher, and swim faster. We use robots as a tool for scientific discovery to explore new research fields, including wearable robots for pediatric rehabilitation and pain relief of musculoskeletal disorders. Our breakthrough advances in bionic limbs will provide greater mobility and new hope to those with physical disabilities. We envision that our work will enable a paradigm shift of wearable robots from lab-bounded rehabilitation machines to ubiquitous personal robots for workplace injury prevention, pediatric and elderly rehabilitation, home care, and space exploration.
Hao Su is Irwin Zahn Endowed Assistant Professor in the Department of Mechanical Engineeringat the City University of New York, City College. He is the Director of the Biomechatronics and Intelligent Robotics (BIRO) Lab. He was a postdoctoral research fellow at Harvard University and the Wyss Institute for Biologically Inspired Engineering. Before this role, he was a Research Scientist at Philips Research North America, where he designed robots for lung and cardiac surgery. He received his Ph.D. degree at Worcester PolytechnicInstitute. Dr. Su received the NSF CAREER Award, Best Medical Robotics Paper Runner-up Award at the IEEE International Conference on Robotics and Automation (ICRA), and Philips Innovation Transfer Award. His research issponsored by NSF (National Robotics Initiative, Cyber-Physical Systems,Future of Work), NIH R01, National Institute on Disability, Independent Living, and Rehabilitation Research (NIDLRR), and Toyota Mobility Foundation. He is currently directing a Center of Assistive and Personal Robotics for Independent Living (APRIL) funded by the National Science Foundation and Department of Health and Human Services.