5G New Radio Non-Orthogonal Multiple Access
ISBN: 9781003336167
Platform/Publisher: Taylor & Francis / CRC Press
Digital rights: Users: Unlimited; Printing: Unlimited; Download: Unlimited



This book provides detailed descriptions of downlink non-orthogonal multiple transmissions and uplink non-orthogonal multiple access (NOMA) from the aspects of majorly used 5G New Radio scenarios and system performance.


For the downlink, the discussion focuses on the candidate schemes in 3GPP standards which are not only applicable to unicast services, but also to broadcast/multi-cast scenarios. For the uplink, the main target scenario is massive machine-type communications where grant-free transmission can reduce signaling overhead, power consumption of devices and access delays. The design principles of several uplink NOMA schemes are discussed in-depth, together with the analysis of their performances and receiver complexities.


Devoted to the basic technologies of NOMA and its theoretical principles, data analysis, basic algorithms, evaluation methodology and simulation results, this book will be an essential read for researchers and students of digital communications, wireless communications engineers, and those who are interested in mobile communications in general.

Yifei Yuan, Chief Expert of China Mobile Research Institute. Dr. Yuan graduated from Tsinghua University and Carnegie Mellon University. He specializes in the research and standardization of key air-interface technologies for 3G, 4G, 5G and 6G mobile networks. He has more than 20 years of experience at Bell Labs, ZTE and China Mobile.

Zhifeng Yuan , Senior Expert in the Algorithm Department of ZTE Corporation. With more than 15 years of experience at ZTE Corporation, he focuses on transmitter designs and advanced receiver algorithms of non-orthogonal multiple access (NOMA), channel coding, modulations and waveform for mobile communications.


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