Wednesday, March 28, 2018

Gabriel Rebeiz: Advanced 5G and SATCOM Phased-Arrays and Transceivers Using Silicon Technologies: THE END OF THE MARCONI ERA IS NEAR

IEEE Boston AP, MTT-S; Photonics, ED, GRSS and COMM                            
                       societies joint special seminar

When: April 4 @ 6pm
Where: MITRE Room 2C130 (Building C); see map
Must Contact Ian McMichael ( to be added to guest list

Advanced 5G and SATCOM Phased-Arrays and Transceivers Using Silicon Technologies: THE END OF THE MARCONI ERA IS NEAR

Gabriel M. Rebeiz
Distinguished Professor
Member of the National Academy
Wireless Communications Industry Endowed Chair
Department of Electrical and Computer Engineering
The University of California, San Diego
During the past 50 years, phased-arrays have being largely developed for the defense sector.  Today, due to the increased demand for data, there is a need for base-station and mobile-user phased-arrays which can provide high-capacity data services through directional links. Therefore, there is an amazing investment by the telecom industry in this sector at highly accelerated time scales (24-36 months) to meet the commercial demand.  Today, both digital-beamforming at the element level (sub-6 GHz) and hybrid (i.e. analog/digital) beamforming for the mm-waves bands are being developed for next-generation 5G telecom systems.  These commercial investments are leading to dramatic changes in phased-arrays: High EIRP, high-performance systems at 28 GHz, 39 GHz and even 60 GHz, and with multiple beams, are now available at low-cost (<$1K). This talk will summarize our work in this area, and present a roadmap for the future.

Prof. Gabriel M. Rebeiz is  Member of the National Academy, Distinguished Professor and the Wireless Communications Industry Endowed Chair at the University of California, San Diego. He is an IEEE Fellow, and is the recipient of the IEEE Daniel E. Nobel Medal, the IEEE MTT Microwave Prize (2000 and 2014), the IEEE MTT 2010 Distinguished Educator Award and the IEEE Antennas and Propagation 2011 John D. Kraus Antenna Award. His group has lead the development of complex RFICs for phased array applications from X-band to W-band, culminating recently in wafer-scale integration with high-efficiency on-chip antennas. His phased array work is now used by most companies developing complex communication and radar systems. He has graduated nearly 100 PhD students and post-doctoral fellows. 

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