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DTSTART:20240310T030000
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DTSTAMP:20240724T185501Z
UID:C68C64EA-A5ED-4A30-B9DF-99CF62CE0275
DTSTART;TZID=America/New_York:20240723T113000
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DESCRIPTION:Next sixth generation (6G) wireless systems are expected to sup
 port ultra-reliable communications (URC) for data generated from various d
 evices and applications. To achieve URC\, various techniques can be used\,
  such as multiple-input multiple-output (MIMO)\, intelligent reflective su
 rfaces (IRS)\, forward error correction coding\, and automatic repeat requ
 est (ARQ). The design of resilient waveforms\, modulation schemes\, and mu
 ltiple access techniques at the physical layer also plays a crucial role i
 n the design of future 6G networks. However\, most conventional techniques
  require significant overhead in terms of complexity\, signalling\, hardwa
 re\, or power consumption. In this presentation\, we will present a novel 
 signal design that can offer about 40 dB of diversity gain without any add
 itional transmission or hardware resources. The performance of the new sch
 eme will be compared to other schemes.\n\n[]\n\nSpeaker(s): Prof. Arafat A
 l-Dweik\, \n\nRoom: ENG 460\, Bldg: ENG building \, 245 Church Street\, To
 ronto Metropolitan University\, Toronto\, Ontario\, Canada
LOCATION:Room: ENG 460\, Bldg: ENG building \, 245 Church Street\, Toronto 
 Metropolitan University\, Toronto\, Ontario\, Canada
ORGANIZER:l5zhao@torontomu.ca
SEQUENCE:2
SUMMARY:Signal Design for 6G Ultra-Reliable Wireless Communications
URL;VALUE=URI:https://events.vtools.ieee.org/m/425809
X-ALT-DESC:Description: <br /><p><span lang="en-AE">Next sixth generation (
 6G) wireless systems are expected to support ultra-reliable communications
  (URC) for data generated from various devices and applications. To achiev
 e URC\, various techniques can be used\, such as multiple-input multiple-o
 utput (MIMO)\, intelligent reflective surfaces (IRS)\, forward error corre
 ction coding\, and automatic repeat request (ARQ). The design of resilient
  waveforms\, modulation schemes\, and multiple access techniques at the ph
 ysical layer also plays a crucial role in the design of future 6G networks
 . However\, most conventional techniques require significant overhead in t
 erms of complexity\, signalling\, hardware\, or power consumption. In this
  presentation\, we will present a novel signal design that can offer about
  40 dB of diversity gain without any additional transmission or hardware r
 esources. The performance of the new scheme will be compared to other sche
 mes.</span></p>\n<p><span lang="en-AE">&nbsp\;</span><img src="https://eve
 nts.vtools.ieee.org/vtools_ui/media/display/5d67c724-0549-4364-80f9-fa45e2
 2df7b8" alt="" width="960" height="540"></p>
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