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DTSTAMP:20260424T221423Z
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DTSTART;TZID=Europe/Madrid:20260428T160000
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DESCRIPTION:Link to the event: https://eu.bbcollab.com/guest/138527cb5a304f
 e3b7a6be7bfd5782a5\n\nLink to the lecture: https://mtt.org/profile/mark-ro
 dwell/\n\nDescription:\n\nWe describe the opportunities\, and the research
  challenges\, presented in the development of 100-300GHz wireless communic
 ations and imaging systems. In such links\, short wavelengths permit massi
 ve spatial multiplexing both for network nodes and point-point links\, per
 mitting aggregate transmission capacities approaching 1Tb/s. 100-300GHz ra
 dar imaging systems can provide thousands of image pixels and sub-degree a
 ngular resolution from small apertures\, supporting foul-weather driving a
 nd aviation. Challenges include the mm-wave IC designs\, the physical desi
 gn of the front-end modules\, the complexity of the back-end digital beamf
 ormer required for spatial multiplexing\, and\, for imaging\, the developm
 ent of system architectures requiring far fewer RF channels than the numbe
 r of image pixels. We will describe transistor development\, IC design\, a
 nd system design\, and describe our efforts to develop 140GHz massive MIMO
  wireless hubs\, and 210GHz and 280GHz MIMO backhaul links.\n\nBio of the 
 lecturer:\n\nMark Rodwell holds the Doluca Family Endowed Chair in Electri
 cal and Computer Engineering at UCSB and directs the SRC/DARPA Center for 
 Converged TeraHertz Communications and Sensing. His research group develop
 s nm and THz transistors\, and high-frequency integrated circuits and syst
 ems. Prof. Rodwell received the 2010 IEEE Sarnoff Award\, the 2012 Marconi
  Prize Paper Award\, the 1997 IEEE Microwave Prize\, the 2009 IEEE IPRM Co
 nference Award\, and the 1998 European Microwave Conference Microwave Priz
 e.\n\nSpeaker(s): Mark Rodwell\, \n\nVirtual: https://events.vtools.ieee.o
 rg/m/556994
LOCATION:Virtual: https://events.vtools.ieee.org/m/556994
ORGANIZER:dani@tsc.uc3m.es
SEQUENCE:40
SUMMARY:Online DML Lecturer Mark Rodwell. Title : 100-300 GHz Wireless: tra
 nsistors\, ICs\, systems
URL;VALUE=URI:https://events.vtools.ieee.org/m/556994
X-ALT-DESC:Description: <br /><p>Link to the event: &nbsp\;<a href="https:/
 /eu.bbcollab.com/guest/138527cb5a304fe3b7a6be7bfd5782a5">https://eu.bbcoll
 ab.com/guest/138527cb5a304fe3b7a6be7bfd5782a5</a></p>\n<p>Link to the lect
 ure: <a href="https://mtt.org/profile/mark-rodwell/">https://mtt.org/profi
 le/mark-rodwell/</a>&nbsp\;</p>\n<p>Description:</p>\n<p>We describe the o
 pportunities\, and the research challenges\, presented in the development 
 of 100-300GHz wireless communications and imaging systems. In such links\,
  short wavelengths permit massive spatial multiplexing both for network no
 des and point-point links\, permitting aggregate transmission capacities a
 pproaching 1Tb/s. 100-300GHz radar imaging systems can provide thousands o
 f image pixels and sub-degree angular resolution from small apertures\, su
 pporting foul-weather driving and aviation. Challenges include the mm-wave
  IC designs\, the physical design of the front-end modules\, the complexit
 y of the back-end digital beamformer required for spatial multiplexing\, a
 nd\, for imaging\, the development of system architectures requiring far f
 ewer RF channels than the number of image pixels. We will describe transis
 tor 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<p>Bio of the lecturer:</p>\n<p>Mark Rodwell holds t
 he Doluca Family Endowed Chair in Electrical and Computer Engineering at U
 CSB and directs the SRC/DARPA Center for Converged TeraHertz Communication
 s and Sensing. His research group develops nm and THz transistors\, and hi
 gh-frequency integrated circuits and systems. Prof. Rodwell received the 2
 010 IEEE Sarnoff Award\, the 2012 Marconi Prize Paper Award\, the 1997 IEE
 E Microwave Prize\, the 2009 IEEE IPRM Conference Award\, and the 1998 Eur
 opean Microwave Conference Microwave Prize.&nbsp\;</p>
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