Although technical challenges are still daunting, the clinical utility of neuroprosthetics has increased dramatically over the past few years. This has been accomplished through the convergence of numerous disciplines, which have individually added fundamental understanding/capabilities to systems that interface with the human body to restore senses and movement, or treat prevalent diseases that have currently no foreseeable cure. In this talk, we will cover recent advances in bioelectromagnetic systems and computational models for healthcare, with a particular focus on visual and hippocampal prostheses, peripheral neuroprosthetics, and sensors.
About the Speaker:
Gianluca LAZZI (Fellow, IEEE) is a Provost Professor of Ophthalmology, Electrical Engineering, Clinical Entrepreneurship and Biomedical Engineering at the University of Southern California (USC) where he is also the holder of the Fred H. Cole Professorship and the Director of the Institute for Technology and Medical Systems (ITEMS), a joint initiative of the Keck School of Medicine and the Viterbi School of Engineering. His expertise is in antenna design, medical applications of electromagnetics, implantable devices, neuroengineering, wireless telemetry, and liquid metal sensors. He is a Fellow of the IEEE, a Fellow of the American Institute for Medical and Biological Engineering (AIMBE), and a Fellow of the National Academy of Inventors (NAI). He co-founded Teveri, Inc, which is focused on the commercialization of stretchable conductive liquid metal-based fibers knitted in clothing and athletic apparel to bring seamless biometric, sensing and illumination solutions to smart clothing as well as stretchable electronic systems for medical, consumer, and military applications. He served as the 2022 President of the IEEE Antennas and Propagation Society.
Affiliation: University of Southern California
Contact Person: Prof. Giacomo OLIVERI <giacomo.oliveri@unitn.it>