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DTSTAMP:20240914T200352Z
UID:72FE467C-53F6-4290-BFAB-87D1ED29A91D
DTSTART;TZID=Europe/Madrid:20240911T110000
DTEND;TZID=Europe/Madrid:20240911T120000
DESCRIPTION:Conference Abstract: With the rapid advent in sensors and actua
 tors\, and the ever-advancing wireless technologies\, the idea of internet
 -of-things (IoTs) has had a revolutionary impact on ubiquitous computing w
 ith massive amount of data from the 5G/B5G-connected smart objects. This n
 ew paradigm has become the driving force for many new technologies\, such 
 as smart cities\, telemedicine\, telediagnosis\, and point-of-care testing
  (POCT). This talk will give an overview of our recent progress on micro/n
 anotechnology-driven wireless sensors and integrated systems. The first pa
 rt of this talk will discuss low-noise\, batteryless and wireless harmonic
 /intermodulation sensors for physical and (bio-)chemical sensing\, as well
  as ultracompact harmonic biosensors based on chemically-reconfigurable fr
 equency modulators built using nanomaterial-based RF circuits. In addition
 \, wearable antennas based on lightweight and stretchable nanocomposite ma
 terials will be discussed\, along with their applications in wearable elec
 tronics and smart skins. The second part of this talk will discuss how the
  concepts of “PT-symmetry” originating from quantum mechanics and “t
 ime crystal” can be implemented using RF circuits and applied to enhance
  sensitivity and resolvability of wireless micro/nano-sensors\, with some 
 in-vivo demonstrations. The final part of this talk will showcase nanomate
 rial-based RF/analog circuits that leverage the intrinsically high entropy
  to generate electromagnetically unclonable function (EMUF)-based cryptogr
 aphic keys for identifying and securing resource-scarce wireless sensors\,
  RFID tags\, and IoTs.\n\nCo-sponsored by: Universidad Carlos III de Madri
 d\n\nSpeaker(s): Pai-Yen\, \n\nRoom: Aula de Grados\, Building Padre Soler
 \, Bldg: Padre Soler\, Escuela Politécnica Superior\, Universidad Carlos 
 III de Madrid \, Avda. Universidad 30\, Leganes\, Madrid\, Spain\, 28911\,
  Virtual: https://events.vtools.ieee.org/m/432941
LOCATION:Room: Aula de Grados\, Building Padre Soler\, Bldg: Padre Soler\, 
 Escuela Politécnica Superior\, Universidad Carlos III de Madrid \, Avda. 
 Universidad 30\, Leganes\, Madrid\, Spain\, 28911\, Virtual: https://event
 s.vtools.ieee.org/m/432941
ORGANIZER:dani@tsc.uc3m.es
SEQUENCE:12
SUMMARY:Micro and Nano-Driven Antennas\, Circuits\, and Sensors for Telehea
 lth and Telemedicine
URL;VALUE=URI:https://events.vtools.ieee.org/m/432941
X-ALT-DESC:Description: <br /><p class="MsoBodyText" style="margin: 6.0pt 0
 cm 6.0pt 0cm\;"><strong style="mso-bidi-font-weight: normal\;"><span lang=
 "EN-US" style="font-size: 11.0pt\; font-family: 'Arial'\,sans-serif\;">Con
 ference Abstract:</span></strong><span lang="EN-US" style="font-size: 11.0
 pt\; font-family: 'Arial'\,sans-serif\;"> With the rapid advent in sensors
  and actuators\, and the ever-advancing wireless technologies\, the idea o
 f internet-of-things (IoTs) has had a revolutionary impact on ubiquitous c
 omputing with massive amount of data from the 5G/B5G-connected smart objec
 ts. This new paradigm </span><span lang="EN-US" style="font-size: 11.0pt\;
  font-family: 'Arial'\,sans-serif\; mso-fareast-font-family: DengXian\; ms
 o-fareast-theme-font: minor-fareast\; mso-fareast-language: ZH-TW\;">has b
 ecome the driving force for many new technologies\, such as smart cities\,
  telemedicine\, telediagnosis\, and point-of-care testing (POCT). </span><
 span lang="EN-US" style="font-size: 11.0pt\; font-family: 'Arial'\,sans-se
 rif\;">This talk will give an overview of our recent progress on micro/nan
 otechnology-driven wireless sensors and integrated systems. <span style="c
 olor: black\; mso-color-alt: windowtext\; background: white\;">The first p
 art of this talk will discuss low-noise\, batteryless and wireless harmoni
 c/intermodulation sensors for physical and (bio-)chemical sensing\, as wel
 l as ultracompact harmonic biosensors based on chemically-reconfigurable f
 requency modulators built using nanomaterial-based RF circuits. In additio
 n\, wearable antennas based on lightweight and stretchable nanocomposite m
 aterials will be discussed\, along with their applications in wearable ele
 ctronics and smart skins. </span>The second part of this talk<span style="
 color: black\; mso-color-alt: windowtext\; background: white\;"> will disc
 uss how the concepts of &ldquo\;PT-symmetry&rdquo\; originating from quant
 um mechanics and &ldquo\;time crystal&rdquo\; can be implemented using RF 
 circuits and applied to enhance sensitivity and resolvability of wireless 
 micro/nano-sensors\, with some in-vivo demonstrations. The final part of t
 his talk will showcase nanomaterial-based </span>RF/analog circuits that l
 everage the intrinsically high entropy to generate electromagnetically unc
 lonable function (EMUF)-based cryptographic keys for identifying and secur
 ing resource-scarce wireless sensors\, RFID tags\, and IoTs.</span></p>
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