Brain monitoring takes a leap out of the lab
University of California - 12-Jan-2016Dry EEG sensors easier to apply than wet sensors. Still provide high-density/low-noise brain act...
Join the club for FREE to access the whole archive and other member benefits.
Founder, CEO and Research Director at San Diego neurotechnology company Intheon
Dr. Tim Mullen holds degrees in computer science and computational and cognitive neuroscience from UC Berkeley (B.A.s) and the UC San Diego Dept. of Cognitive Science (M.S. and Ph.D) and Institute for Neural Computation. At Xerox PARC he developed patented applications of wearable brain-computer interface (BCI) technology. Over the last fifteen years he has advanced widely used methods and software for neural signal analysis and state decoding. Prior academic awards included the UCSD Chancellor’s Dissertation Medal, IEEE best paper awards, Glushko, San Diego, and Swartz Fellowships, and UC Berkeley highest honors. His scientific publications focus on the use of machine learning and adaptive system identification techniques applied to non-invasive and intracranial electrophysiological data (e.g. EEG, ECoG), to detect mental states and neuronal pathologies. He is a frequent speaker at international conferences and workshops, and his work has been highlighted by various media outlets including TED, BBC World, Discovery Science, and Wired, and before the US Congress. He is also a musician and artist whose work in audiovisual new media, exploring real-time interactions between the brain and body and external environments, has been presented nationally and internationally. He is founding director of the annual Mozart & the Mind festival with Mainly Mozart, a series of concerts, presentations, and interactive media and neurotechnology exhibitions exploring the impact of music on our brains, health, and lives.
Visit website: https://intheon.io/team
See also: Intheon - Neurotechnology software platform for brain and body signal decoding
Details last updated 28-Jan-2021
Dry EEG sensors easier to apply than wet sensors. Still provide high-density/low-noise brain act...