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DTSTART;TZID=America/New_York:20230417T180000
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DESCRIPTION:Come hear IEEE 2023 MTT-S Distinguished Lecturer (DL) Dr. Jasmi
 n Grosinger's presentation on her work in ultra-low power wireless systems
 . In the Connectivity for Everything that will come with 6G\, there will b
 e a massive deployment of wireless nodes (estimates of (10^7 devices)/(km^
 2)) and engineers are working on the RF design challenges to address the s
 ustainibility issues at both the environmental and economic level that wil
 l come with such a deployment. This presentation will show how these issue
 s are being addressed\, and will be very interesting to MTT/AP-S members a
 s well as all in the IEEE. Dr. Grosinger brings over 10 years of micowave/
 RF experience\, in both academic R&D and industry in Austria\, the US\, an
 d Germany to her role as an IEEE MTT-S DL. See the full presentation abstr
 act below. Everyone is welcome\, from practitioner to retiree\, and studen
 t. IEEE events are open to all\; you do not have to be a member to attend.
 \n\nParking at the Nashua Public Library's parking lot is paid by the hour
 \, via parking meters\; see the lot's $/hr rates and location along the so
 uthern bank of the Nashua River at https://www.nashuanh.gov/DocumentCenter
 /View/6306/Downtown-Parking-Brochure-PDF?bidId=.\n\nAbstract\nRF DESIGN FO
 R ULTRA-LOW-POWER WIRELESS COMMUNICATION SYSTEMS: EFFICIENTLY MINIATURIZIN
 G AND PASSIVELY SENSING\n\nIn this talk\, I will present radio frequency (
 RF) design solutions for wireless sensor nodes to solve sustainability iss
 ues in the Internet of things (IoT)\, which arise due to the massive deplo
 yment of wireless IoT nodes on environmental and economic levels. Engineer
 s can apply these RF design solutions to improve the ultra-low-power opera
 tion of IoT nodes\, avoid batteries’ eco-toxicity\, and decrease mainten
 ance costs due to battery replacement. The presented solutions offer high 
 integration levels based on system-on-chip and system-in-package concepts 
 in low-cost complementary metal-oxide-semiconductor technologies to limit 
 costs and carbon footprints of these nodes. Within this research context\,
  I will present solutions for ultra-low-power wireless communication syste
 ms based on high frequency (HF) and ultra-high frequency (UHF) radio frequ
 ency identification (RFID) technologies. In particular\, I will present RF
  design solutions for HF and UHF RFID systems that reveal how to develop p
 assive miniaturized IoT nodes that operate robustly in harsh application e
 nvironments and how to create batteryless or rather passive IoT nodes\, wh
 ich provide passive sensing capabilities and work robustly in their respec
 tive application environment.\n\nSpeaker(s): Jasmin Grosinger\, Ph.D.\, \n
 \nAgenda: \n6:00 PM to 6:15 PM Meet and greet\n\n6:15 PM to 7:15 PM Presen
 tation\n\n7:15 PM Optional dinner with speaker at a nearby restaurant\n\nR
 oom: Theater Room\, Nashua Public Library\, 2 Court St.\, Nashua\, New Ham
 pshire\, United States\, 03060
LOCATION:Room: Theater Room\, Nashua Public Library\, 2 Court St.\, Nashua\
 , New Hampshire\, United States\, 03060
ORGANIZER:herrere@ieee.org
SEQUENCE:9
SUMMARY:IEEE NH In-Person Meeting - "RF DESIGN FOR ULTRA-LOW-POWER WIRELESS
  COMMUNICATION SYSTEMS" by MTT-S Distinguished Lecturer Jasmin Grosinger\,
  Ph.D.
URL;VALUE=URI:https://events.vtools.ieee.org/m/351134
X-ALT-DESC:Description: <br /><p>Come hear IEEE 2023 MTT-S Distinguished Le
 cturer (DL) Dr. Jasmin Grosinger's presentation on her work in ultra-low p
 ower wireless systems.&nbsp\; In the Connectivity for Everything that will
  come with 6G\, there will be a massive deployment of wireless nodes (esti
 mates of (10^7 devices)/(km^2)) and engineers are working on the RF design
  challenges to address the sustainibility issues at both the environmental
  and economic level that will come with such a deployment. This presentati
 on will show how these issues are being addressed\, and will be very inter
 esting to MTT/AP-S members as well as all in the IEEE.&nbsp\; Dr. Grosinge
 r brings over 10&nbsp\; years of micowave/RF experience\, in both academic
  R&amp\;D and industry in Austria\, the US\, and Germany to her role as an
  IEEE MTT-S DL. See the full presentation abstract below.&nbsp\; Everyone 
 is welcome\, from practitioner to retiree\, and student.&nbsp\; IEEE event
 s are open to all\; you do not have to be a member to attend.&nbsp\;</p>\n
 <p>Parking at the Nashua Public Library's parking lot is paid by the hour\
 , via parking meters\; see the lot's $/hr rates and location along the sou
 thern bank of the Nashua River at&nbsp\;<a title="nashuanh.gov's downtown 
 parking map" href="https://www.nashuanh.gov/DocumentCenter/View/6306/Downt
 own-Parking-Brochure-PDF?bidId=" target="_blank" rel="noopener">https://ww
 w.nashuanh.gov/DocumentCenter/View/6306/Downtown-Parking-Brochure-PDF?bidI
 d=</a>.&nbsp\;</p>\n<p><strong>Abstract&nbsp\;</strong></p>\n<div class="h
 4 profile__title profile__title--presentation">RF DESIGN FOR ULTRA-LOW-POW
 ER WIRELESS COMMUNICATION SYSTEMS: EFFICIENTLY MINIATURIZING AND PASSIVELY
  SENSING</div>\n<div class="profile__bio">\n<p>In this talk\, I will prese
 nt radio frequency (RF) design solutions for wireless sensor nodes to solv
 e sustainability issues in the Internet of things (IoT)\, which arise due 
 to the massive deployment of wireless IoT nodes on environmental and econo
 mic levels. Engineers can apply these RF design solutions to improve the u
 ltra-low-power operation of IoT nodes\, avoid batteries&rsquo\; eco-toxici
 ty\, and decrease maintenance costs due to battery replacement. The presen
 ted solutions offer high integration levels based on system-on-chip and sy
 stem-in-package concepts in low-cost complementary metal-oxide-semiconduct
 or technologies to limit costs and carbon footprints of these nodes. Withi
 n this research context\, I will present solutions for ultra-low-power wir
 eless communication systems based on high frequency (HF) and ultra-high fr
 equency (UHF) radio frequency identification (RFID) technologies. In parti
 cular\, I will present RF design solutions for HF and UHF RFID systems tha
 t reveal how to develop passive miniaturized IoT nodes that operate robust
 ly in harsh application environments and how to create batteryless or rath
 er passive IoT nodes\, which provide passive sensing capabilities and work
  robustly in their respective application environment.</p>\n</div><br /><b
 r />Agenda: <br /><p>6:00 PM to 6:15 PM&nbsp\; &nbsp\; Meet and greet</p>\
 n<p>6:15 PM to 7:15 PM&nbsp\; &nbsp\; Presentation</p>\n<p>7:15 PM&nbsp\; 
 &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &n
 bsp\;Optional dinner with speaker at a nearby restaurant</p>
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