Kevin Warwick is Deputy Vice-Chancellor (Research) at Coventry University. Prior that he was Professor of Cybernetics at The University of Reading, England. His research areas are artificial intelligence, control, robotics and biomedical engineering. He is a Chartered Engineer (CEng.) and is a Fellow of The Institution of Engineering & Technology (FIET). He is the youngest person ever to become a Fellow of the City & Guilds of London Institute (FCGI). He is the author or co-author of more than 600 research papers and has written or edited 27 books (three for general readership), as well as numerous magazine and newspaper articles on scientific and general subjects. He has broadcast and lectured widely and holds various visiting professorships..
Kevin’s experiments into implant technology led to him being featured as the cover story on the US magazine, ‘Wired’. His research has involved being a self-experimenter and he is frequently referred to as the world’s first cyborg.
Kevin has been awarded seven Honorary Doctorates by UK Universities, including Coventry. He was presented with The Future of Health Technology Award at MIT, was made an Honorary Member of the Academy of Sciences, St. Petersburg, received the IEE Senior Achievement Medal, the IET Mountbatten Medal and in 2011 the Ellison-Cliffe Medal from the Royal Society of Medicine. In 2000 Kevin presented the Royal Institution Christmas Lectures, entitled “The Rise of the Robots”.
Kevin’s research has involved the design of an intelligent deep brain stimulator to counteract the effects of Parkinson Disease tremors. The tremors are predicted and a current signal is applied to stop the tremors before they start. Another project involves the use of cultured/biological neural networks to drive robots around – the brain of each robot is made of neural tissue. Kevin is best known for his pioneering experiments involving a neuro-surgical implantation into the median nerves of his own left arm to link his nervous system directly to a computer to assess the latest technology for use with disabled people. He was successful with the first extra-sensory (ultrasonic) input for a human and with the first purely electronic telegraphic communication experiment between the nervous systems of two humans.