题目：5G – Massive, Ultra-Dense, Delay, and Computing
报告人：Tony Q.S. Quek
Tony Q.S. Quek received the B.E. and M.E. degrees in Electrical and Electronics Engineering from Tokyo Institute of Technology, Tokyo, Japan, respectively. At Massachusetts Institute of Technology (MIT), Cambridge, MA, he earned the Ph.D. in Electrical Engineering and Computer Science. Currently, he is a tenured Associate Professor with the Singapore University of Technology and Design (SUTD). He also serves as the Associate Head of ISTD Pillar and the Deputy Director of SUTD-ZJU IDEA. His current research topics include heterogeneous networks, wireless security, big data processing, and IoT.
Dr. Quek has been actively involved in organizing and chairing sessions, and has served as a TPC member in a numerous international conferences. He is serving as the Workshop Chair for IEEE Globecom in 2017 and the Special Session Chair for IEEE SPAWC in 2017. He is an Editor for the IEEE Transactions on Communications and an elected member of IEEE Signal Processing Society SPCOM Technical Committee. He is a co-author of the book “Small Cell Networks: Deployment, PHY Techniques, and Resource Allocation” published by Cambridge University Press in 2013 and the book “Cloud Radio Access Networks: Principles, Technologies, and Applications” by Cambridge University Press in 2016.
Dr. Quek received the 2008 Philip Yeo Prize for Outstanding Achievement in Research, the IEEE Globecom 2010 Best Paper Award, the 2012 IEEE William R. Bennett Prize, the IEEE SPAWC 2013 Best Student Paper Award, the IEEE WCSP 2014 Best Paper Award, the IEEE PES General Meeting 2015 Best Paper, the 2015 SUTD Outstanding Education Awards – Excellence in Research, the 2016 Thomson Reuters Highly Cited Researcher, and the 2016 IEEE Signal Processing Society Young Author Best Paper Award.
With 4G cellular technologies now beginning to be deployed widely around the world, the fifth generation (5G) mobile and wireless communication technologies are emerging into research fields. New services, applications and devices will drive requirements on data rate, ubiquity of data services, latency, cost, and reliability and further drive data traffic growth. To meet the above challenges in 5G, new technologies have been developed and investigated all around the world. In this talk, we will discuss some recent work that help to enhance our understanding of 5G systems, especially related to massive MIMO, ultra-dense deployment, delay analysis, and edge computing.