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DESCRIPTION:[]\n\n100-300 GHz Wireless: transistors\, ICs\, systems\n\nBy\n
 \nProfessor Mark Rodwell\, UCSB\n\nIEEE-MTT Distinguished Microwave Lectur
 er\n\nWe describe the opportunities\, and the research challenges\, presen
 ted in the development of 100-300GHz wireless communications and imaging s
 ystems. In such links\, short wavelengths permit massive spatial multiplex
 ing both for network nodes and point-point links\, permitting aggregate tr
 ansmission capacities approaching 1Tb/s. 100-300GHz radar imaging systems 
 can provide thousands of image pixels and sub-degree angular resolution fr
 om small apertures\, supporting foul-weather driving and aviation. Challen
 ges include the mm-wave IC designs\, the physical design of the front-end 
 modules\, the complexity of the back-end digital beamformer required for s
 patial multiplexing\, and\, for imaging\, the development of system archit
 ectures requiring far fewer RF channels than the number of image pixels. W
 e will describe transistor development\, IC design\, and system design\, a
 nd describe our efforts to develop 140GHz massive MIMO wireless hubs\, and
  210GHz and 280GHz MIMO backhaul links.\n\nThis is a virtual on line lectu
 re. Please register on IEEE-Vtools.\n\nProfessor Mark Rodwell holds the Do
 luca Family Endowed Chair in Electrical and Computer Engineering at UCSB a
 nd directs the SRC/DARPA Center for Converged TeraHertz Communications and
  Sensing. His research group develops nm and THz transistors\, and high-fr
 equency integrated circuits and systems. Prof. Rodwell received the 2010 I
 EEE Sarnoff Award\, the 2012 Marconi Prize Paper Award\, the 1997 IEEE Mic
 rowave Prize\, the 2009 IEEE IPRM Conference Award\, and the 1998 European
  Microwave Conference Microwave Prize.\n\nMore information https://mtt.org
 /profile/mark-rodwell/\n\nSpeaker(s): Mark Rodwell\, \, \n\nVirtual: https
 ://events.vtools.ieee.org/m/468178
LOCATION:Virtual: https://events.vtools.ieee.org/m/468178
ORGANIZER:rbenoit@ieee.org
SEQUENCE:22
SUMMARY:100-300 GHz Wireless: transistors\, ICs\, systems
URL;VALUE=URI:https://events.vtools.ieee.org/m/468178
X-ALT-DESC:Description: <br /><p>&nbsp\;</p>\n<p class="MsoNormal" style="t
 ext-align: center\;"><img src="https://events.vtools.ieee.org/vtools_ui/me
 dia/display/49849085-337a-42a6-8644-1c13ac446f5a" alt="" width="250" heigh
 t="329"></p>\n<p class="MsoNormal" style="text-align: center\;"><strong>10
 0-300 GHz Wireless: transistors\, ICs\, systems&nbsp\;</strong></p>\n<p cl
 ass="MsoNormal" style="text-align: center\;"><strong>By </strong></p>\n<p 
 class="MsoNormal" style="text-align: center\;"><strong>Professor Mark Rodw
 ell\, UCSB</strong></p>\n<p class="MsoNormal" style="text-align: center\;"
 ><strong>IEEE-MTT Distinguished Microwave Lecturer</strong></p>\n<p class=
 "MsoNormal" style="text-align: justify\;">We describe the opportunities\, 
 and the research challenges\, presented in the development of 100-300GHz w
 ireless communications and imaging systems. In such links\, short waveleng
 ths permit massive spatial multiplexing both for network nodes and point-p
 oint links\, permitting aggregate transmission capacities approaching 1Tb/
 s. 100-300GHz radar imaging systems can provide thousands of image pixels 
 and sub-degree angular resolution from small apertures\, supporting foul-w
 eather driving and aviation. Challenges include the mm-wave IC designs\, t
 he physical design of the front-end modules\, the complexity of the back-e
 nd digital beamformer required for spatial multiplexing\, and\, for imagin
 g\, the development of system architectures requiring far fewer RF channel
 s than the number of image pixels. We will describe transistor development
 \, IC design\, and system design\, and describe our efforts to develop 140
 GHz massive MIMO wireless hubs\, and 210GHz and 280GHz MIMO backhaul links
 .</p>\n<p class="MsoNormal" style="text-align: justify\;">&nbsp\;</p>\n<p 
 class="MsoNormal" style="text-align: justify\;">This is a virtual on line 
 lecture. Please register on IEEE-Vtools.</p>\n<p class="MsoNormal" style="
 text-align: justify\;">&nbsp\;</p>\n<p class="MsoNormal" style="text-align
 : justify\;">Professor Mark Rodwell holds the Doluca Family Endowed Chair 
 in Electrical and Computer Engineering at UCSB and directs the SRC/DARPA C
 enter for Converged TeraHertz Communications and Sensing. His research gro
 up develops nm and THz transistors\, and high-frequency integrated circuit
 s and systems. Prof. Rodwell received the 2010 IEEE Sarnoff Award\, the 20
 12 Marconi Prize Paper Award\, the 1997 IEEE Microwave Prize\, the 2009 IE
 EE IPRM Conference Award\, and the 1998 European Microwave Conference Micr
 owave Prize.</p>\n<p class="MsoNormal" style="text-align: justify\;">More 
 information &nbsp\;<a href="https://mtt.org/profile/mark-rodwell/" target=
 "_blank" rel="noopener">https://mtt.org/profile/mark-rodwell/</a></p>
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