Sponsor: San Diego Section Chapter, COM19
Speaker: Professor Hsi-Tseng Chou

Date: 22 Oct 2025
Time: 06:00 PM PDT to 07:30 PM PDT
Cost:
Location:
Reservations: IEEE
Summary:
The rapid evolution of mobile communications has fueled the growth of wireless technologies, with Beyond 5G (B5G) and 6G systems operating at millimeter-wave (mmWave) frequencies emerging as key areas of focus. At these frequencies, antenna performance becomes critical to overall system reliability and efficiency. Active phased arrays are expected to be widely deployed in both base transceiver stations (BTSs) and user terminals (UTs). However, successful implementation is challenged by material uncertainties, fabrication tolerances, and interference from surrounding components.

BTS antennas must meet stringent requirements for sidelobe suppression, cross-polarization control, and stable beam squint performance. Meanwhile, UTs typically employ antenna-in-package (AiP) designs to reduce form factor, introducing additional complexities related to thermal management, radiation consistency, beam steering accuracy, and calibration—challenges that are common across most mmWave wireless systems.

This lecture offers a comprehensive introduction on antenna design and system integration at mmWave frequencies, with an emphasis on B5G/6G applications. We begin by reviewing system requirements and application scenarios to contextualize antenna specifications and design choices. Various antenna architectures—such as beam-switching and multi-beam arrays—will be introduced, along with their beamforming principles and associated control architectures.

Beyond design considerations, the lecture also addresses essential system-level issues including heat dissipation strategies, RF component testing, measurement methodologies, and calibration techniques, covering both R&D and mass production contexts. This content is intended to equip engineers, researchers, and system integrators with the foundational knowledge necessary to develop and deploy high-performance antenna systems for the next generation of mobile communication networks.

Bio: Professor Hsi-Tseng Chou (IEEE Fellow’2012) received his B.S. in Electrical Engineering from National Taiwan University (NTU) in 1988 and his M.S. and Ph.D. from The Ohio State University (OSU) in 1993 and 1996, respectively. He began his research career at OSU’s ElectroScience Laboratory (ESL) as a graduate associate and postdoctoral researcher (1991–1998). He later served at Yuan Ze University (YZU) from 1998 to 2015 before joining the Department of Electrical Engineering at NTU, where he is currently a Distinguished Professor. His leadership roles include Dean of YZU’s Office of R&D, Director of NTU’s Graduate Institute of Communication Engineering, and Founding Director of NTU’s IoT Research Center.

Professor Chou’s research focuses on high-gain and smart antennas, including Antenna-in-Package (AiP) and Antenna-in-Module (AiM) technologies, supported by a comprehensive foundation in antenna electromagnetics, numerical methods, and measurement techniques. His team is internationally recognized for its contributions to asymptotic high-frequency techniques in real and complex space, especially in Uniform Geometrical Theory of Diffraction (UTD)-based ray and beam methods. These solutions have been widely implemented in the design of high-gain antennas such as reflectors, reflectarrays, and phased arrays.

With over three decades of experience, Professor Chou has led the development of end-to-end RF subsystems at millimeter-wave frequencies, integrating RFICs and baseband DSP algorithms. He has collaborated with over 60 companies and research institutes globally, providing consulting services to more than 16 antenna-related firms and playing a pivotal role in developing Taiwan’s antenna industry ecosystem. His contributions include forming the “High-Gain and Smart Antenna Industrial Technologies Consortium,” nurturing companies in satellite TV, microwave links, and mobile base station antennas—many of which have become global leaders.