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DTSTART;TZID=Australia/Canberra:20260514T110000
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DESCRIPTION:Abstract\n\nIn-band full-duplex (IBFD) communication\, which en
 ables simultaneous transmission and reception over the same frequency chan
 nel\, has emerged as a key enabler for sixth-generation (6G) networks. By 
 doubling spectral efficiency in principle\, IBFD offers a compelling respo
 nse to the escalating demand for high-speed wireless connectivity. Beyond 
 communication alone\, IBFD also plays a pivotal role in integrated sensing
  and communication (ISAC)\, allowing a single hardware platform and wavefo
 rm to simultaneously support data transmission and environmental sensing. 
 The principal challenge in realising practical IBFD systems lies in mitiga
 ting self-interference (SI)\, the strong transmitter leakage that can over
 whelm the receiver and severely degrade performance.\n\nIn this talk\, I w
 ill present our advanced SI cancellation solutions\, which integrate analo
 g-domain suppression with digital-domain adaptive algorithms to achieve de
 ep SI mitigation. By further incorporating antenna-domain isolation\, we h
 ave developed an end-to-end IBFD prototype that unifies all three layers o
 f SI suppression—antenna\, analog\, and digital—into a fully functiona
 l system.\n\nI will then turn to the new challenges that arise in SI manag
 ement for IBFD ISAC. Sensing echoes introduce additional mutual interferen
 ce (MI) with uplink communication signals\, and Doppler shifts induced by 
 moving targets further complicate interference estimation and cancellation
 . To conclude\, I will outline our recent research on advanced analog SIC 
 techniques tailored to IBFD ISAC.\n\nPresenter’s biography\n\nDr Tuyen L
 e is a Research Fellow at the School of Electrical and Data Engineering\, 
 Faculty of Engineering and Information Technology and a core member of the
  Global Big Data Technology Centre (GBDTC)\, UTS. His research interests i
 nclude adaptive signal processing\, integrated sensing and communication\,
  and electronic circuits and systems.\n\nDr Le is an active researcher in 
 the field of in-band full-duplex communication technology. Scopus ranks hi
 m among the top four researchers in Australia in the area of full-duplex\,
  self-interference\, and antenna technologies. Dr Le's publications often 
 feature proof-of-concept prototypes\, demonstrating the practical impact o
 f his research. His paper on adaptive filter algorithm and its implementat
 ion using off-the-shelf components was awarded with Best Student Paper Awa
 rd in the 2019 International Telecommunications and Applications Conferenc
 e (ITNAC). Dr Tuyen Le has attracted more than $1M funding from industry a
 nd government research contracts. He has served as a reviewer for most IEE
 E Transactions and a Technical Program Member of flagship conferences such
  as ICC 2022\, 2023.\n\nDr. Tuyen Le received the B.E. degree from Le Quy 
 Don Technical University\, Vietnam in 2008\, the M.E. degree from the Univ
 ersity of Wollongong (UOW)\, Australia\, in 2014\, and the Ph.D. degree fr
 om the University of Technology Sydney (UTS)\, Australia\, in 2020\, all i
 n telecommunications engineering.\n\nVirtual: https://events.vtools.ieee.o
 rg/m/557790
LOCATION:Virtual: https://events.vtools.ieee.org/m/557790
ORGANIZER:Forest Zhu <Xi.Zhu@uts.edu.au>
SEQUENCE:11
SUMMARY:Technical Talk on In-band Full-duplex Technology for 6G Mobile Netw
 orks
URL;VALUE=URI:https://events.vtools.ieee.org/m/557790
X-ALT-DESC:Description: <br /><p><strong>Abstract</strong></p>\n<p>In-band 
 full-duplex (IBFD) communication\, which enables simultaneous transmission
  and reception over the same frequency channel\, has emerged as a key enab
 ler for sixth-generation (6G) networks. By doubling spectral efficiency in
  principle\, IBFD offers a compelling response to the escalating demand fo
 r high-speed wireless connectivity. Beyond communication alone\, IBFD also
  plays a pivotal role in integrated sensing and communication (ISAC)\, all
 owing a single hardware platform and waveform to simultaneously support da
 ta transmission and environmental sensing. The principal challenge in real
 ising practical IBFD systems lies in mitigating self-interference (SI)\, t
 he strong transmitter leakage that can overwhelm the receiver and severely
  degrade performance.</p>\n<p>In this talk\, I will present our advanced S
 I cancellation solutions\, which integrate analog-domain suppression with 
 digital-domain adaptive algorithms to achieve deep SI mitigation. By furth
 er incorporating antenna-domain isolation\, we have developed an end-to-en
 d IBFD prototype that unifies all three layers of SI suppression&mdash\;an
 tenna\, analog\, and digital&mdash\;into a fully functional system.</p>\n<
 p>I will then turn to the new challenges that arise in SI management for I
 BFD ISAC. Sensing echoes introduce additional mutual interference (MI) wit
 h uplink communication signals\, and Doppler shifts induced by moving targ
 ets further complicate interference estimation and cancellation. To conclu
 de\, I will outline our recent research on advanced analog SIC techniques 
 tailored to IBFD ISAC.</p>\n<p><strong><em><u>Presenter&rsquo\;s biography
 </u></em></strong></p>\n<p>Dr Tuyen Le is a Research Fellow at the School 
 of Electrical and Data Engineering\, Faculty of Engineering and Informatio
 n Technology and a core member of the Global Big Data Technology Centre (G
 BDTC)\, UTS. His research interests include adaptive signal processing\, i
 ntegrated sensing and communication\, and electronic circuits and systems.
 </p>\n<p>&nbsp\;Dr Le is an active researcher in the field of in-band full
 -duplex communication technology. Scopus ranks him among the top four rese
 archers in Australia in the area of full-duplex\, self-interference\, and 
 antenna technologies. Dr Le's publications often feature proof-of-concept 
 prototypes\, demonstrating the practical impact of his research. His paper
  on adaptive filter algorithm and its implementation using off-the-shelf c
 omponents was awarded with Best Student Paper Award in the 2019 Internatio
 nal Telecommunications and Applications Conference (ITNAC). Dr Tuyen Le ha
 s attracted more than $1M funding from industry and government research co
 ntracts. He has served as a reviewer for most IEEE Transactions and a Tech
 nical Program Member of flagship conferences such as ICC 2022\, 2023.&nbsp
 \;</p>\n<p>&nbsp\;Dr. Tuyen Le received the B.E. degree from Le Quy Don Te
 chnical University\, Vietnam in 2008\, the M.E. degree from the University
  of Wollongong (UOW)\, Australia\, in 2014\, and the Ph.D. degree from the
  University of Technology Sydney (UTS)\, Australia\, in 2020\, all in tele
 communications engineering.</p>
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