5/31/2024 (FRI) 11:30 ~ 12:10K3-2WJWTPKeynote Speech Venue
Wireless technologies expected in 6G/Beyond5G and the latest trends for Wireless communication.
In contrast to 5G and Beyond5G, the research and development of the next generation mobile wireless communication system 6G, which aims to provide more comprehensive and sustainable wireless connectivity, aims to significantly improve the performance of current 5G communication systems and further increase network speed, bandwidth and low latency.
As a result, new applications such as virtual and augmented reality (VR/AR), artificial intelligence (AI), connected cars, connected industry and automation, ubiquitous coverage through non-terrestrial networks (NTN), joint communications and sensing, low-power wireless communications The future of the system is expected to include the following.
Research is currently being conducted on the following technologies in order to realise 6G systems, the specifications of which are being drawn up with the aim of commercialising them around 2030: - Sub-terahertz communication and other technologies
New frequencies such as sub-terahertz communications
AI and machine learning
Reconfigurable Intelligent Surfaces (RIS)
Joint communications and sensing (JCAS)
New digital waveforms.
In addition, AI and machine learning technologies are already encapsulated in 5G-Advanced systems; the 6G radio communication standard will support AI-based air interfaces, which could improve capabilities such as joint compression and coding, beamforming, channel state information (CSI) compression and positioning techniques. There is potential for improved functionality.
In this presentation, the essential technologies and corresponding analysis and simulation methods for the realisation of Beyond5G and upcoming 6G technologies will be presented.
MathWorks Japan
Akemi TANAKA
As a Principal Application Engineer at MathWorks, he focuses on communication systems, signal processing, image processing and HDL implementations, and is an assistant secretary of the IEICE/Smart Radio Research Group (SR).
Prior to joining MathWorks, he designed LSI/FPGAs for cellular systems, including the implementation of a world-first function. He is also the author of the book 'Bipedal Robot Simulation with MATLAB/Simulink and Model-Based Design'.
Prior to joining MathWorks, he designed LSI/FPGAs for cellular systems, including the implementation of a world-first function. He is also the author of the book 'Bipedal Robot Simulation with MATLAB/Simulink and Model-Based Design'.