Flexible, Wearable, and Disposable Antennas for Wireless Communication and Sensing Systems Through Additive Manufacturing


ATIF SHAMIM

Professor of Electrical & Computer Engineering
King Abdullah University of Science & Technology (KAUST)
KSA


Biography
Received his MS and PhD degrees in electrical engineering from Carleton University, Canada in 2004 and 2009 respectively. He was an NSERC Alexander Graham Bell Graduate scholar at Carleton University from 2007 to 2009 and an NSERC postdoctoral Fellow from 2009-2010 at Royal Military College Canada and KAUST. In August 2010, he joined the Electrical and Computer Engineering Program at KAUST, where he is currently a Full Professor and Chair of the Electrical and Computer Engineering Program and the Principal Investigator of IMPACT Lab. He was an invited researcher at the VTT Micro-Modules Research Center (Oulu, Finland) in 2006. His research work has won best paper awards in IEEE ICMAC 2021, IEEE IMS 2016, IEEE MECAP 2016, IEEE EuWiT 2008, first prize in IEEE APS 2022 Design Project Competition and IEEE IMS 2019 3MT competition, finalist/honorable mention prizes in IEEE APS Design Competition 2020, IEEE IMS 2017, R. W. P. King prize for IEEE TAP 2017 and 2020, IEEE IMS 2014, IEEE APS 2005. He has been selected as the Distinguished Lecturer for IEEE AP-S (2022-2024). He has won the King's Prize for the best innovation of the year (2018) for his work on sensors for the oil industry. He was given the Ottawa Centre of Research Innovation (OCRI) Researcher of the Year Award in 2008 in Canada. His work on Wireless Dosimeter won the ITAC SMC Award at Canadian Microelectronics Corporation TEXPO in 2007. Prof. Shamim also won numerous business-related awards, including 1st prize in Canada’s national business plan competition, and was awarded the OCRI Entrepreneur of the Year award in 2010. He is an author/co-author of 1 book, 3 book chapters, and over 300 international publications, an inventor on 40 patents, and has given close to 100 invited talks at various international forums. His research interests are in innovative antenna designs and their integration strategies with circuits and sensors for flexible and wearable wireless sensing systems through a combination of CMOS and additive manufacturing technologies. He is a Fellow of IEEE, founded the first IEEE AP/MTT chapter in Saudi Arabia (2013) served on the editorial board of IEEE Transactions on Antennas and Propagation (2013-2019), and as a Guest Editor for the IEEE AWPL Special issue (2019). He is currently serving as an Associate Editor for the IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology, and also as a Vice Chair for the IEEE APS Member and Geographic Activities (MGA) Committee, member of the IEEE APS Technical Committees on Antenna Measurements, IEEE MTT-S Microwave Controls, and IEEE CRFID Additive Manufacturing.
Find out more details at https://cemse.kaust.edu.sa/impacts


Abstract
With the advent of wearable sensors and the Internet of things (IoT), there is a new focus on electronics that can be bent so that they can be worn or mounted on non-planar objects. Due to the large volume (billions of devices), there is a requirement that the cost is extremely low, to the extent that they become disposable. The flexible and low-cost aspects can be addressed through additive manufacturing technologies such as inkjet and screen printing. This talk introduces additive manufacturing as an emerging technique to realize low-cost, flexible, and wearable wireless communication and sensing systems. The ability to print electronics on unconventional mediums such as plastics, papers, and textiles has opened up a plethora of new applications. In this talk, various innovative antenna and sensor designs will be shown which have been realized through additive manufacturing. A multilayer process will be presented where dielectrics are also printed in addition to the metallic parts, thus demonstrating fully printed components. Many new functional inks and their use in tunable and reconfigurable components will be shown. In the end, many system-level examples of wireless sensing applications will be shown. The promising results of these designs indicate that the day when electronics can be printed like newspapers and magazines through roll-to-roll printing is not far away.