This book offers comprehensive, practical guidance on RF propagation channel characterization at mmWave and sub-terahertz frequencies, with an overview of both measurement systems and current and future channel models. It introduces the key concepts required for performing accurate mmWave channel measurements, including channel sounder architectures, calibration methods, channel sounder performance metrics and their relationship to propagation channel characteristics. With a comprehensive introduction to mmWave channel models, the book allows readers to carefully review and select the most appropriate channel model for their application. The book provides fundamental system theory accessible in a step by step way with clear examples throughout. With inter- and multidisciplinary perspectives, the reader will observe the tight interaction between measurements and modeling for these frequency bands and how different disciplines interact. This is an excellent reference for researchers, including graduate students, working on mmWave and sub-THz wireless communications, and for engineers developing communication systems.
A complete guide for creating accurate channel-propagation measurements and channel models at millimeter-wave and sub-terahertz bands. Including examples, this book provides practical guidance on RF propagation channels, including measurement system verification and an overview of current and future channel models for these frequencies.
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A comprehensive source for creating accurate channel-propagation measurements and channel models at millimeter-wave and sub-terahertz bands.
1. Introduction Theodore S. Rappaport, Kate A. Remley, Camillo Gentile,
Andreas F. Molisch, Alenka Zaji;
2. Estimating channel characteristics from
measurements Kate A. Remley, Sana Salous, Theodore S. Rappaport, Ruoyu Sun,
Camillo Gentile, Andreas F. Molisch, Alenka Zaji;
3. Channel sounders Reiner
Thomä, Robert Müller, Christian Schneider, Diego Dupleich, Kate A. Remley,
Jelena Senic, Ruoyu Sun, Peter Papazian, Jeanne T. Quimby, Camillo Gentile,
Juyul Lee, Myung-Don Kim, Jae-Joon Park, Hyun-Kyu Chung, David Michelson,
Theodore S. Rappaport, George MacCartney, Yunchou Xing, Shu Sun, Sana Salous,
Akbar Sayeed, Robert W. Heath Jr., Vutha Va, Alenka Zaji, Andreas F.
Molisch;
4. Verification techniques Alenka Zaji, Kate A. Remley, Theodore S.
Rappaport, George MacCartney, Yunchou Xing, Shu Sun, Camillo Gentile, Jeanne
T Quimby, Jelena Senic, Ruoyu Sun, Peter Papazian, Russell W Krueger, Reiner
Thomä, Robert Müller, Christian Schneider, Diego Dupleich, Juyul Lee,
Myung-Don Kim, Jae-Joon Park, Hyun Kyu Chung, Robert W Heath, Jr, Vutha Va,
David Michelson, Yvo de Jong, Mustapha Bennai, Sana Salous, Akbar Sayeed,
Ismail Guvenc, Ozgur Ozdemir, Andreas F. Molisch;
5. Introduction to Mmwave
channel modelling Andreas F. Molisch, Camillo Gentile, Theodore S. Rappaport,
Alenka Zaji, Ozge Hizir Koymen, Kate A. Remley;
6. Path loss / Shadowing
Camillo Gentile, Jelena Senic, Ruoyu Sun, Peter Papazian, Theodore S.
Rappaport, George MacCartney, Yunchou Xing, Shu Sun, Andreas F. Molisch,
Alenka Zaji, Kate A. Remley; 7 Multipath-component clustering Ruisi
He, Reiner Thomä, Robert Müller, Christian Schneider, Diego Dupleich, George
MacCartney, Yunchou Xing, Shu Sun, Theodore S. Rappaport, Peter Papazian,
Camillo Gentile, Andreas F. Molisch, Alenka Zaji, Kate A. Remley;
8.
Dispersion characteristics Alenka Zaji, David Matolak, Theodore S.
Rappaport, George R. MacCartney, Yunchou Xing, Shu Sun, Alexander Maltsev,
Andrey Pudeyev, Aki Hekkala, Pekka Kyosti, Anmol Bhardwaj, Katsuyuki Haneda,
Usman Virk, Camillo Gentile, Kate A. Remley, Andreas F. Molisch;
9.
Peer-To-Peer networking Andreas F. Molisch, Anmol Bhardwaj, George
MacCartney, Yunchou Xing, Shu Sun, Theodore S. Rappaport, Camillo Gentile,
Kate A. Remley, Alenka Zaji;
10. Temporal variance, literature review on
human blockage models Katsuyuki Haneda, Usman Virk, George MacCartney,
Yunchou Xing, Shu Sun, Theodore S. Rappaport, Andreas F. Molisch, Alenka
Zaji, Camillo Gentile, Kate A. Remley;
11. Terahertz channels Alenka Zaji,
Theodore S. Rappaport, Andreas F. Molisch, George MacCartney, Yunchou Xing,
Camillo Gentile, Kate A. Remley;
12. Connection between the measurements and
models Akbar Sayeed, Kate A. Remley, Camillo Gentile, Andreas F. Molisch,
Alenka Zaji, Theodore S. Rappaport;
13. Conclusions Theodore S. Rappaport,
Kate A. Remley, Camillo Gentile, Andreas F. Molisch, Alenka Zaji.
Theodore S. Rappaport founded NYU WIRELESS, a multidisciplinary research center, and the wireless research centers at the University of Texas Austin and Virginia Tech. Professor Rappaport is a member of the National Academy of Engineering, the Wireless Hall of Fame, and a fellow of the National Academy of Inventors. Kate A. Remley is the Leader of the Metrology for Wireless Systems Project at the National Institute of Standards and Technology. Here Dr Remley specialises in the development of calibrated measurements for microwave and millimeter-wave wireless systems and standardized over-the-air test methods for the wireless industry. Camillo Gentile is leading the Radio Access and Propagation Metrology Group and the NextG Channel Measurement and Modeling Project at the National Institute of Standards and Technology. Here Dr. Gentile prototypes novel radio-frequency channel measurement and modeling techniques for the millimeter-wave and sub-Terahertz bands. Andreas F. Molisch is the Solomon Golomb- Andrew and Erna Viterbi Chair Professor at the University of Southern California. He is a Fellow of the National Academy of Inventors, AAAS, IEEE, IET, Member of the Austrian Academy of Sciences, and recipient of numerous awards. Alenka Zaji is Ken Byres Professor in the School of ECE at the Georgia Tech. She is the recipient of many awards including NSF CAREER Award, multiple Best Paper Awards, and Neal Shepherd Memorial Best Propagation Paper Award. Her research interests span applied electromagnetics, wireless communications, and computer systems.
