“无限未来”学术论坛 I Overview of Green and Intelligent Technologies for Future Wireless Systems (7.18)

发布者:何万源发布时间:2024-07-12浏览次数:10

Title: Overview of Green and Intelligent Technologies for Future Wireless Systems


时间:7月18日  星期四 14:00-14:45

地点:紫金山实验室B1 楼 722会议室


Abstract: In 2030, wireless systems will evolve significantly from current networks to provide more integrated and energy efficient solutions. Additionally, wireless designers are increasingly targetting higher frequencies in the millimetre wave and even terahertz bands to provide increased capacity. Future systems will also target tighter integration of terrestrial and satellite communications to provide more consistent service and reduce "not-spot" regions. In this talk we will describe the motivation and design of these future systems and give examples of how optimization and machine learning methods can be applied. These challenges cover particularly how wireless devices can reason about the radio environment to enable and perform communication in an efficient manner. This talk will also explore open research problems where novel solutions can enable significant performance improvements.

Biography: John Thompson currently holds a personal chair in Signal Processing and Communications at the School of Engineering, University of Edinburgh. He currently specializes in antenna array processing, energy-efficient wireless communications and more recently in the application of machine learning to wireless communications. To date, he has published in excess of 500 journal and conference papers on these topics. He is currently area editor for the wireless communications topic in IEEE Transactions on Green Communications and Networking. In January 2016, he was elevated to Fellow of the IEEE for research contributions to antenna arrays and multi-hop communications. He was also one of four scientists elevated to Fellow of the European Association for Signal Processing (EURASIP) in 2023 for “signal processing advances in multiple antenna and relayed wireless communication systems”.