Millimeter-Wave/Sub-Terahertz Ultra-Massive MIMO Transmission Technology

The book focuses on the advanced mmWave/Sub-terahertz ultra-massive MIMO wireless communications, which are regarded as a promising paradigm shift in future 5G beyond and even 6G. This is achieved by providing a comprehensive review of the rapidly developing field of massive MIMO communication, in-depth discussions on the impact of extremely large-scale antenna array, and detailed numerical simulation results on our proposed schemes. Several case studies are given after introducing basic communication system components, and the simulation codes are open sourced in our book, which shows the reproducibility of our models and methods and provides convenience for readers such as researchers, engineers, and graduate students in the fields of wireless communications.

Introduces mmWave/Sub-terahertz ultra-massive MIMO wireless communications from basic components Studies physical-layer algorithm design in wireless communication system aided by extremely large-scale antenna array Provides complete simulation code for better comprehension and scheme reproduction

Autorentext

Zhen Gao received the B.S. degree in information engineering from Beijing Institute of Technology, Beijing, China, in 2011 and the Ph.D. degree in communication and signal processing from Tsinghua National Laboratory for Information Science and Technology, Department of Electronic Engineering, Tsinghua University, China, in 2016. He is currently Assistant Professor at Beijing Institute of Technology. His research interests are in wireless communications, with a focus on multi-carrier modulations, multiple antenna systems, and sparse signal processing. He was a recipient of the IEEE Broadcast Technology Society 2016 Scott Helt Memorial Award (Best Paper), the Exemplary Reviewer of IEEE COMMUNICATIONS LETTERS in 2016, the IET ELECTRONICS LETTERS Premium Award (Best Paper) 2016, the Young Elite Scientists Sponsorship Program (2018-2020) from China Association for Science and Technology, the Elsevier China Highly Cited Scholar (2020), and the First Prize of Natural Science granted by Chinese Institute of Electronics.

Inhalt
An Overview.- Channel Estimation Design for Narrowband mmWave Hybrid massive MIMO.- Channel Estimation Design for broadband mmWave Hybrid massive MIMO.- Close-loop Channel Estimation Design for mmWave Full-dimensional massive MIMO.- Terahertz Ultra-Massive MIMO in Space-Air-Ground Integrated Networks.- Terahertz Massive MIMO With Holographic Reconfigurable Intelligent Surfaces.- Multi-user multi-stream Hybrid Precoding for mmWave MIMO-OFDM Systems.- Conclusions and Future Visions.