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DTSTAMP:20260223T200423Z
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DTSTART;TZID=America/Chicago:20260320T130000
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DESCRIPTION:Zoom link:\n\nJoin Zoom Meeting\nhttps://uic.zoom.us/j/37501774
 36?pwd=YktNd1dheHQ5a05kUFlnakV0d0JrQT09\n\nTitle\n\n100-300 GHz Wireless: 
 transistors\, ICs\, systems\n\nBiography\n\nMark Rodwell holds the Doluca 
 Family Endowed Chair in Electrical and Computer Engineering at UCSB and di
 rects the SRC/DARPA Center for Converged TeraHertz Communications and Sens
 ing. His research group develops nm and THz transistors\, and high-frequen
 cy integrated circuits and systems. Prof. Rodwell received the 2010 IEEE S
 arnoff Award\, the 2012 Marconi Prize Paper Award\, the 1997 IEEE Microwav
 e Prize\, the 2009 IEEE IPRM Conference Award\, and the 1998 European Micr
 owave Conference Microwave Prize.\n\nAbstract\n\nWe describe the opportuni
 ties\, and the research challenges\, presented in the development of 100-3
 00GHz wireless communications and imaging systems. In such links\, short w
 avelengths permit massive spatial multiplexing both for network nodes and 
 point-point links\, permitting aggregate transmission capacities approachi
 ng 1Tb/s. 100-300GHz radar imaging systems can provide thousands of image 
 pixels and sub-degree angular resolution from small apertures\, supporting
  foul-weather driving and aviation. Challenges include the mm-wave IC desi
 gns\, the physical design of the front-end modules\, the complexity of the
  back-end digital beamformer required for spatial multiplexing\, and\, for
  imaging\, the development of system architectures requiring far fewer RF 
 channels than the number of image pixels. We will describe transistor deve
 lopment\, IC design\, and system design\, and describe our efforts to deve
 lop 140GHz massive MIMO wireless hubs\, and 210GHz and 280GHz MIMO backhau
 l links.\n\nReference: https://mtt.org/profile/mark-rodwell/\n\nCo-sponsor
 ed by: IEEE MTT-S/ IEEE AP-S\n\nVirtual: https://events.vtools.ieee.org/m/
 541881
LOCATION:Virtual: https://events.vtools.ieee.org/m/541881
ORGANIZER:pychen@uic.edu
SEQUENCE:17
SUMMARY:IEEE Distinguished Microwave Lecture: 100-300 GHz Wireless: transis
 tors\, ICs\, systems by Prof. Mark Rodwell at UCSB
URL;VALUE=URI:https://events.vtools.ieee.org/m/541881
X-ALT-DESC:Description: <br /><h4 class="profile__title bordered">Zoom link
 :</h4>\n<h4 class="profile__title bordered"><span style="color: #073763\; 
 font-family: arial\, sans-serif\;">Join Zoom Meeting<br></span><a href="ht
 tps://uic.zoom.us/j/3750177436?pwd=YktNd1dheHQ5a05kUFlnakV0d0JrQT09" targe
 t="_blank" rel="noopener" data-saferedirecturl="https://www.google.com/url
 ?q=https://uic.zoom.us/j/3750177436?pwd%3DYktNd1dheHQ5a05kUFlnakV0d0JrQT09
 &amp\;source=gmail&amp\;ust=1771963329061000&amp\;usg=AOvVaw1J2oUcb-5QA4zI
 DLJQ_Y0k">https://uic.zoom.us/j/<wbr>3750177436?pwd=<wbr>YktNd1dheHQ5a05kU
 FlnakV0d0JrQT<wbr>09</a></h4>\n<h4 class="profile__title bordered">Title</
 h4>\n<p>100-300 GHz Wireless: transistors\, ICs\, systems</p>\n<h4 class="
 profile__title bordered">Biography</h4>\n<div class="profile__bio">\n<p>Ma
 rk Rodwell holds the Doluca Family Endowed Chair in Electrical and Compute
 r Engineering at UCSB and directs the SRC/DARPA Center for Converged TeraH
 ertz Communications and Sensing. His research group develops nm and THz tr
 ansistors\, and high-frequency integrated circuits and systems. Prof. Rodw
 ell received the 2010 IEEE Sarnoff Award\, the 2012 Marconi Prize Paper Aw
 ard\, the 1997 IEEE Microwave Prize\, the 2009 IEEE IPRM Conference Award\
 , and the 1998 European Microwave Conference Microwave Prize.</p>\n</div>\
 n<h4 class="profile__title bordered">Abstract</h4>\n<div class="profile__b
 io">\n<p>We describe the opportunities\, and the research challenges\, pre
 sented in the development of 100-300GHz wireless communications and imagin
 g systems. In such links\, short wavelengths permit massive spatial multip
 lexing both for network nodes and point-point links\, permitting aggregate
  transmission capacities approaching 1Tb/s. 100-300GHz radar imaging syste
 ms can provide thousands of image pixels and sub-degree angular resolution
  from small apertures\, supporting foul-weather driving and aviation. Chal
 lenges include the mm-wave IC designs\, the physical design of the front-e
 nd modules\, the complexity of the back-end digital beamformer required fo
 r spatial multiplexing\, and\, for imaging\, the development of system arc
 hitectures requiring far fewer RF channels than the number of image pixels
 . We will describe transistor development\, IC design\, and system design\
 , and describe our efforts to develop 140GHz massive MIMO wireless hubs\, 
 and 210GHz and 280GHz MIMO backhaul links.</p>\n</div>\n<p>Reference: http
 s://mtt.org/profile/mark-rodwell/</p>
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