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DESCRIPTION:The Industrial Initiatives Committee of the IEEE Antennas and P
 ropagation Society Presents:\n\n5G and Beyond: A Diverse Set of Antenna So
 lutions for a Diversity of Requirements\n\nDr Rod Waterhouse\, CTO Octane 
 Wireless\n\nSummary\n5G was often touted as revolutionary\, as opposed to 
 evolutionary like previous cellular networks (4G\, etc). This was because 
 a wide range of applications were proposed to be supported such as eMBB (E
 nhanced Mobile Broadband)\, mIoT (Massive Internet of Things) and low late
 ncy systems (for example selfautonomous vehicles and telemedicine). In fac
 t\, 5G can really be considered a network of wireless systems which theref
 ore require a diverse range of radiating solutions. In this talk we will e
 xplore different radiating solutions to meet the targeted goals of several
  of these 5G applications.\nWe will first present the design and developme
 nt of a concealed LEO satellite-based tracker for shipping containers (hid
 den so as to not attract unwanted attention to the cargo and possible thef
 t) relevant for mIoT. Satellite systems and mIoT have a very special relat
 ionship especially when tracking objects over great distances and differen
 t topologies and when a cellular network may not provide a guaranteed\, re
 liable connection. Central to the successful development of the tracker ar
 e low profile\, highly efficient antennas with the appropriate radiation p
 erformance. In the presentation we will outline the design of the antennas
  and the RF module as well as the system requirements. We will also presen
 t the results of the field testing of the tracker in a variety of environm
 ents and locations on different continents. In the second part of the talk
 \, we present a patch-based millimeter-wave (mm-wave) phased array solutio
 n that is consistent with CMOS manufacturing procedures. As described earl
 ier\, one of the main drivers for 5G and beyond is eMBB and to achieve the
  target data rates it is anticipated that low-cost mm-wave phased arrays w
 ill play a major role. We show that an array of these elements\, developed
  on low cost material can readily be scanned to beyond 60 degrees over the
  entire Ka-band\; relevant for EMBB mm-wave systems.\n\nCo-sponsored by: P
 rofessor Thas Nirmalathas from the University of Melbourne\n\nSpeaker(s): 
 Dr Rod Waterhouse\, \n\nAgenda: \nAgenda:\n4:00 pm Welcome and Introductio
 n (Moderator: Dr Dalma Novak)\n4:10 pm Dr Rod Waterhouse\, Octane Wireless
 \, ‘5G and Beyond: A Diverse Set of Antenna Solutions for a\nDiversity o
 f Requirements’\n5:00 pm Speaker Q&A\n5:15 pm IEEE Senior Membership Dri
 ve\n5:30 pm Reception and Networking\n6.30 pm Close\n\nRoom: Manhari Room\
 , Bldg: Melbourne Connect (Building 290)\, The University of Melbourne\, 7
 00 Swanston Street\, Melbourne\, Victoria\, Australia\, Virtual: https://e
 vents.vtools.ieee.org/m/354135
LOCATION:Room: Manhari Room\, Bldg: Melbourne Connect (Building 290)\, The 
 University of Melbourne\, 700 Swanston Street\, Melbourne\, Victoria\, Aus
 tralia\, Virtual: https://events.vtools.ieee.org/m/354135
ORGANIZER:fatemeh.babaeian@ieee.org
SEQUENCE:11
SUMMARY:5G and Beyond: A Diverse Set of Antenna Solutions for a Diversity o
 f Requirements
URL;VALUE=URI:https://events.vtools.ieee.org/m/354135
X-ALT-DESC:Description: <br /><p><strong>The Industrial Initiatives Committ
 ee of the IEEE Antennas and Propagation Society Presents:&nbsp\;</strong><
 /p>\n<p><br /><strong>5G and Beyond: A Diverse Set of Antenna Solutions fo
 r a Diversity of Requirements</strong></p>\n<p><br /><strong>Dr Rod Waterh
 ouse\, CTO Octane Wireless</strong>&nbsp\;</p>\n<p>&nbsp\;</p>\n<p><strong
 >Summary</strong><br />5G was often touted as revolutionary\, as opposed t
 o evolutionary like previous cellular networks (4G\, etc). This was becaus
 e a wide range of applications were proposed to be supported such as eMBB 
 (Enhanced Mobile Broadband)\, mIoT (Massive Internet of Things) and low la
 tency systems (for example selfautonomous vehicles and telemedicine). In f
 act\, 5G can really be considered a network of wireless systems which ther
 efore require a diverse range of radiating solutions. In this talk we will
  explore different radiating solutions to meet the targeted goals of sever
 al of these 5G applications.<br />We will first present the design and dev
 elopment of a concealed LEO satellite-based tracker for shipping container
 s (hidden so as to not attract unwanted attention to the cargo and possibl
 e theft) relevant for mIoT. Satellite systems and mIoT have a very special
  relationship especially when tracking objects over great distances and di
 fferent topologies and when a cellular network may not provide a guarantee
 d\, reliable connection. Central to the successful development of the trac
 ker are low profile\, highly efficient antennas with the appropriate radia
 tion performance. In the presentation we will outline the design of the an
 tennas and the RF module as well as the system requirements. We will also 
 present the results of the field testing of the tracker in a variety of en
 vironments and locations on different continents. In the second part of th
 e talk\, we present a patch-based millimeter-wave (mm-wave) phased array s
 olution that is consistent with CMOS manufacturing procedures. As describe
 d earlier\, one of the main drivers for 5G and beyond is eMBB and to achie
 ve the target data rates it is anticipated that low-cost mm-wave phased ar
 rays will play a major role. We show that an array of these elements\, dev
 eloped on low cost material can readily be scanned to beyond 60 degrees ov
 er the entire Ka-band\; relevant for EMBB mm-wave systems.</p>\n<p>&nbsp\;
 </p>\n<p>&nbsp\;</p><br /><br />Agenda: <br /><p><strong>Agenda:</strong><
 br />4:00 pm Welcome and Introduction (Moderator: Dr Dalma Novak)<br />4:1
 0 pm Dr Rod Waterhouse\, Octane Wireless\, &lsquo\;5G and Beyond: A Divers
 e Set of Antenna Solutions for a<br />Diversity of Requirements&rsquo\;<br
  />5:00 pm Speaker Q&amp\;A<br />5:15 pm IEEE Senior Membership Drive<br /
 >5:30 pm Reception and Networking<br />6.30 pm Close</p>
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