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DESCRIPTION:Data communication\, parametric sensing\, and power transmissio
 n are the three cornerstone functions of wireless technology. Traditionall
 y\, these functions have been independently supported by specialized RF an
 d wireless transceivers. However\, recent advancements in transceiver arch
 itecture research have driven the emergence of innovative system solutions
  characterized by low power consumption\, self-adaptive capabilities\, and
  scalable integration. In future intelligent systems\, the fusion of multi
 ple wireless functions will fundamentally transform transceiver design fra
 meworks. This integration promises enduring benefits\, including architect
 ural unification\, system simplification\, miniaturization\, and reconfigu
 rability. It also offers enhancements in efficiency\, functional interplay
 \, and cost-effectiveness. This presentation explores cutting-edge advance
 ments and developments in multifunction transceivers and system integratio
 ns spanning frequencies from MHz to THz. It provides a comprehensive revie
 w of state-of-the-art linear and non-linear interferometric techniques\, f
 ocusing on their application in multi-band and multi-structure transceiver
  hardware. Key concepts such as circuit-antenna unification\, orthogonal m
 ode control\, full-duplex\, and virtual transceiver matrix are discussed i
 n depth. Theoretical insights are complemented by experimental demonstrati
 ons\, including implementations in CMOS integrated circuits\, contextualiz
 ed within contemporary wireless systems like 5G\, 6G\, IoT\, and beyond. T
 he presentation also highlights critical research directions for advancing
  multifunctional wireless systems and technologies.\n\nSpeaker(s): Prof. K
 e Wu\, \n\nBldg: HUB 350\, 350 Legget Dr\, Kanata\, Ontario\, Canada\, K2K
  3N1
LOCATION:Bldg: HUB 350\, 350 Legget Dr\, Kanata\, Ontario\, Canada\, K2K 3N
 1
ORGANIZER:aabdella@ieee.org
SEQUENCE:13
SUMMARY:Emerging Transceiver Architectures And Technologies For Future Wire
 less Systems
URL;VALUE=URI:https://events.vtools.ieee.org/m/462045
X-ALT-DESC:Description: &lt;br /&gt;&lt;p&gt;&lt;img style=&quot;display: block\; margin-left: 
 auto\; margin-right: auto\;&quot; src=&quot;https://events.vtools.ieee.org/vtools_ui
 /media/display/207c388a-3e78-43e2-bcf6-4fc6e170eccd&quot; width=&quot;903&quot; height=&quot;5
 08&quot;&gt;&lt;/p&gt;\n&lt;p&gt;&amp;nbsp\;&lt;/p&gt;\n&lt;p class=&quot;AbstractText&quot;&gt;&lt;span lang=&quot;EN-US&quot; style
 =&quot;font-family: &#39;Arial&#39;\,sans-serif\;&quot;&gt;Data communication\, parametric sens
 ing\, and power transmission are the three cornerstone functions of wirele
 ss technology. Traditionally\, these functions have been independently sup
 ported by specialized RF and wireless transceivers. However\, recent advan
 cements in transceiver architecture research have driven the emergence of 
 innovative system solutions characterized by low power consumption\, self-
 adaptive capabilities\, and scalable integration. In future intelligent sy
 stems\, the fusion of multiple wireless functions will fundamentally trans
 form transceiver design frameworks. This integration promises enduring ben
 efits\, including architectural unification\, system simplification\, mini
 aturization\, and reconfigurability. It also offers enhancements in effici
 ency\, functional interplay\, and cost-effectiveness. This presentation ex
 plores cutting-edge advancements and developments in multifunction transce
 ivers and system integrations spanning frequencies from MHz to THz. It pro
 vides a comprehensive review of state-of-the-art linear and non-linear int
 erferometric techniques\, focusing on their application in multi-band and 
 multi-structure transceiver hardware. Key concepts such as circuit-antenna
  unification\, orthogonal mode control\, full-duplex\, and virtual transce
 iver matrix are discussed in depth. Theoretical insights are complemented 
 by experimental demonstrations\, including implementations in CMOS integra
 ted circuits\, contextualized within contemporary wireless systems like 5G
 \, 6G\, IoT\, and beyond. The presentation also highlights critical resear
 ch directions for advancing multifunctional wireless systems and technolog
 ies.&lt;/span&gt;&lt;/p&gt;
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