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TZID:Australia/Victoria
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DTSTART:20211003T030000
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DTSTAMP:20220305T023515Z
UID:D38BF5B5-6ACC-4AB5-88B2-EB4AC366EDA0
DTSTART;TZID=Australia/Victoria:20220302T120000
DTEND;TZID=Australia/Victoria:20220302T130000
DESCRIPTION:By sensing various life activities with microwave signals\, por
 table radar sensors with state-of-the-art front-end and measurement algori
 thms have great potential to improve healthcare\, security\, and human-mac
 hine interface. This presentation will first provide an overview on the st
 ate-of-the-art smart radar sensors powered by advanced digital/RF beamform
 ing\, multiple-input and multiple-output (MIMO)\, synthetic aperture radar
  (SAR)\, inverse synthetic-aperture radar (ISAR)\, and deep learning. A fe
 w examples based on interferometry\, Doppler\, frequency-shift keying (FSK
 )\, and frequency-modulated continuous-wave (FMCW) modes at 5.8 GHz\, 24 G
 Hz\, and 120 GHz will be discussed. In addition\, the use of nonlinear tec
 hnologies will be reported\, with a focus on in-band third-order intermodu
 lation measurement for enhanced target identification and parameter extrac
 tion. Case studies at this exciting human-microwave frontier will be given
  on physiological signal sensing\, non-contact human-computer interface\, 
 driving behavior recognition\, human tracking\, and anomaly detection.\n\n
 As smart radar sensors enter the healthcare\, automotive\, and smart livin
 g sectors of daily life\, measures to enhance its security against malicio
 us attacks are of paramount importance. This part of the talk will discuss
  possible ways of malicious attacks based on spoofing and jamming to radar
  sensors. Then technologies that mitigate potential attacks will be unveil
 ed to make smart radar sensors more secure and trustworthy. Finally\, this
  talk will conclude with future industrial and academic R&D outlooks for m
 icrowave short-range life activities sensing.\n\nSpeaker(s): Prof. Changzh
 i Li\, \n\nMelbourne\, Victoria\, Australia\, Virtual: https://events.vtoo
 ls.ieee.org/m/305885
LOCATION:Melbourne\, Victoria\, Australia\, Virtual: https://events.vtools.
 ieee.org/m/305885
ORGANIZER:fatemeh.babaeian@ieee.org
SEQUENCE:10
SUMMARY:Portable Radar Systems for Life Activity Sensing\, Anomaly Detectio
 n\, and Human Tracking
URL;VALUE=URI:https://events.vtools.ieee.org/m/305885
X-ALT-DESC:Description: <br /><p style="margin-bottom: 0.35cm\; line-height
 : 100%\;" align="justify"><span style="font-family: Calibri\, sans-serif\;
 ">By sensing various life activities with microwave signals\, portable rad
 ar sensors with state-of-the-art front-end and measurement algorithms have
  great potential to improve healthcare\, security\, and human-machine inte
 rface. This presentation will first provide an overview on the state-of-th
 e-art smart radar sensors powered by advanced digital/RF beamforming\, mul
 tiple-input and multiple-output (MIMO)\, synthetic aperture radar (SAR)\, 
 inverse synthetic-aperture radar (ISAR)\, and deep learning. A few example
 s based on interferometry\, Doppler\, frequency-shift keying (FSK)\, and f
 requency-modulated continuous-wave (FMCW) modes at 5.8 GHz\, 24 GHz\, and 
 120 GHz will be discussed. </span>In addition\, the use of nonlinear techn
 ologies will be reported\, with a focus on in-band third-order intermodula
 tion measurement for enhanced target identification and parameter extracti
 on. Case studies at this exciting human-microwave frontier will be given o
 n physiological signal sensing\, non-contact human-computer interface\, dr
 iving behavior recognition\, human tracking\, and anomaly detection.</p>\n
 <p style="margin-bottom: 0.35cm\; line-height: 100%\;" align="justify">As 
 smart radar sensors enter the healthcare\, automotive\, and smart living s
 ectors of daily life\, measures to enhance its security against malicious 
 attacks are of paramount importance. This part of the talk will discuss po
 ssible ways of malicious attacks based on spoofing and jamming to radar se
 nsors. Then technologies that mitigate potential attacks will be unveiled 
 to make smart radar sensors more secure and trustworthy. Finally\, this ta
 lk will conclude with future industrial and academic R&amp\;D outlooks for
  microwave short-range life activities sensing.</p>
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