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eWear Seminar: Democratized Wearable Electronics Using DIY Assembly of Paper and High Performance CMOS Electronics

Date: 
Tuesday, May 14, 2019 - 3:00pm to 4:00pm

Muhammad Mustafa Hussain, PhD

We always hear about smart cities, but rarely, we hear about smart villages although nearly half of the world’s population live in rural areas. While today’s most advanced technologies are geared toward a more digital future, precision healthcare, enhanced convenience and safety – but they are mostly for those who can afford them easily and most probably they already live a more comfortable life. It might alarming that in addition to gross income inequality, there is increasingly rise of gross technological inequality. Therefore, by developing accessible (affordable and simple) electronic technologies with sustainable materials and processes and for sustainable applications, we can assist those billions to augment the quality of their life.

Therefore, we are singularly focused on developing and deploying democratized wearable electronics. Electronics which are carefully designed and optimally crafted using non-functionalized sustainable household materials, environmentally benign processes and assembled through Do-It-Yourself (DIY) integration strategies. Our objective is to develop electronics which are simple to learn and easy to use. Therefore, we are making them interactive thus anyone can use them – anyone from any age group without any language or financial barrier. We use minimalist approach in context of using fully flexible CMOS electronics for data and cost management. A few applications will be shown focusing on paper skin, paper watch, wearable stethoscope, and oddly enough how such low-cost technology can be used to fight against medication related overdose or addiction.

Bio: Mustafa (PhD, ECE, UT Austin, Dec 2005) is currently a Visiting Professor of EECS, UC Berkeley. He is also a Professor of Electrical Engineering, KAUST. He was Program Manager in SEMATECH (2008-2009) and Process Integration Lead for 22 nm node FinFET CMOS in Texas Instruments (2006-2008). His research is focused on futuristic electronics which has received support from DARPA, Boeing, Lockheed Martin, GSK-Novartis, Saudi ARAMCO and SABIC. He has authored 350+ research papers and patents. His students are working in MIT Media Lab, Stanford, Caltech, UC Berkeley, Harvard, UCLA, Intel, TSMC, and DOW Chemicals. He is a Fellow of American Physical Society and Institute of Physics (UK), a distinguished lecturer of IEEE Electron Devices Society, and an Editor of IEEE T-ED. His research has been extensively highlighted by international media (CNN, Fox News, Washington Post, WSJ, IEEE Spectrum, etc.) including being featured by Scientific American as one of the top 10 world changing ideas in 2014.