Advanced Analogue Beamforming Antennas for Green Wireless
As the demand for energy-efficient and cost-effective wireless communication continues to grow, analogue beamforming antennas are gaining renewed attention as a viable alternative to their digital counterparts. Unlike digital beamforming systems that depend on complex and power-intensive processors, analogue beamforming offers a pathway to low-energy, low-cost, and low-complexity solutions, without compromising on high-quality wireless connectivity. This talk will present our recent developments in advanced analogue beamforming antenna technologies, including leaky-wave-based beam scanning for continuous angular coverage and circuit-matrix enabled independent control of multiple scanning beams. These innovations offer promising solutions for future green wireless systems. Furthermore, the talk will highlight key research gaps and potential opportunities that can guide future investigations and developments in this exciting and impactful field.
Date and Time
Location
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- Date: 09 May 2025
- Time: 05:00 AM UTC to 06:00 AM UTC
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- Room IW5.57
- North Terrance, The University of Adelaide
- Adelaide, South Australia
- Australia 5005
- Building: Ingkarni-Wardii
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- Co-sponsored by IEEE SA AP/MTT joint Chapter
- Starts 04 May 2025 02:30 PM UTC
- Ends 09 May 2025 04:30 AM UTC
- No Admission Charge
Speakers
Dr. Stanley Chen
Advanced Analogue Beamforming Antennas for Green Wireless
As the demand for energy-efficient and cost-effective wireless communication continues to grow, analogue beamforming antennas are gaining renewed attention as a viable alternative to their digital counterparts. Unlike digital beamforming systems that depend on complex and power-intensive processors, analogue beamforming offers a pathway to low-energy, low-cost, and low-complexity solutions, without compromising on high-quality wireless connectivity. This talk will present our recent developments in advanced analogue beamforming antenna technologies, including leaky-wave-based beam scanning for continuous angular coverage and circuit-matrix enabled independent control of multiple scanning beams. These innovations offer promising solutions for future green wireless systems. Furthermore, the talk will highlight key research gaps and potential opportunities that can guide future investigations and developments in this exciting and impactful field.
Biography:
Dr Chen received the Ph.D. degree in Engineering from University of Technology Sydney (UTS), Australia, in 2019. From Sep. 2019 to Sep. 2022, he was a Postdoctoral Researcher with Global Big Data Technologies Centre (GBDTC) at UTS, where he is currently appointed as a Lecturer. Prior to this appointment, he held positions as a Research Associate (2019) and Postdoctoral Fellow (2022) at State Key Laboratory of Terahertz and Millimeter Waves (SKLTMW), City University of Hong Kong (CityU), Hong Kong SAR, China.
Dr Chen’s research interests include intelligent antennas and metasurfaces, array synthesis, and applied electromagnetics. He was awarded the prestigious 2025 Discovery Early Career Researcher Award (DECRA) by the Australian Research Council (ARC). He was a co-recipient for a number of Best Paper Awards and Finalist Honors, including 2017 IEEE AP-S/URSI, 2017 ISAP, 2018 ISAPE, 2021 ACES, and 2022 ISAP. In 2022, he received both the IEEE AP-S Fellowship and the EuCAP TICRA-EurAAP Travel Grant. Dr Chen was Lead Guest Editor for Special Issues of IEEE Antennas and Wireless Propagation Letters (AWPL) in 2024 and IEEE Open Journal of Antennas and Propagation (OJAP) in 2023. He is currently serving as an Associate Editor for IEEE Transactions on Circuits and Systems II: Express Briefs (TCAS-II).
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Address:Global Big Data Technologies Centre, University of Technology Sydney (UTS), New South Wales, Australia, 2007