John Wiley & Sons Advanced Multicarrier Technologies for Future Radio Communication: 5G and Beyond Cover A practical review of state-of-the-art non-contiguous multicarrier technologies that are revolutioni.. Product #: 978-1-119-16889-8 Regular price: $116.82 $116.82 In Stock

Advanced Multicarrier Technologies for Future Radio Communication: 5G and Beyond

Bogucka, Hanna / Kliks, Adrian / Kryszkiewicz, Pawel


1. Edition October 2017
304 Pages, Hardcover
Wiley & Sons Ltd

ISBN: 978-1-119-16889-8
John Wiley & Sons

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A practical review of state-of-the-art non-contiguous multicarrier technologies that are revolutionizing how data is transmitted, received, and processed

This book addresses the advantages and the limitations of modern multicarrier technologies and how to meet the challenges they pose using non-contiguous multicarrier technologies and novel algorithms that enhance spectral efficiency, interference robustness, and reception performance. It explores techniques using non-contiguous subcarriers which allow for flexible spectrum aggregation while achieving high spectral efficiency and flexible transmission and reception at lower OSI layers. These include non-contiguous orthogonal frequency division multiplexing (NC-OFDM), its enhanced version, non-contiguous filter-bank-based multicarrier (NC-FBMC), and generalized multicarrier.

Following an overview of current multicarrier technologies for radio communication, the authors examine particular properties of these technologies that allow for more efficient usage within key directions of 5G. They examine the principles of NC-OFDM and discuss efficient transmitter and receiver design. They present the principles of FBMC modulation and discuss key challenges for FBMC communications while comparing performance results with traditional OFDM. They move on from there to a fascinating discussion of GMC modulation within which they clearly demonstrate how that technology encompasses all of the advantages of previously discussed techniques, as well as all imaginable multi- and single-carrier waveforms.
* Addresses the problems and limitations of current multicarrier technologies (OFDM)
* Describes innovative techniques using non-contiguous multicarrier waveforms as well as filter-band based and generalized multicarrier waveforms
* Provides a thorough review of the practical limitations and solutions for evolving and breakthrough 5G communication technologies
* Explores the future outlook for non-contiguous multicarrier technologies as regards their greater industrial realization, hardware practicality, and other challenges

Advanced Multicarrier Technologies for Future Radio Communication: 5G and Beyondis an indispensable working resource fortelecommunication engineers, researchers and academics, as well as graduate and post-graduate students of telecommunications. At the same time, it provides a fascinating look at the shape of things to come for telecommunication industry executives, telecom operators, regulators, policy makers, and economists.


List of Abbreviations


Chapter 1: Introduction

1.1 5G radio communications

1.2 Challenges for future radio communications

1.3 Initiatives for the future radio interface definition

Chapter 2: Multicarrier technologies in radio communication systems

2.1 The principles of OFDM

2.2 Non-linear distortions in multi-carrier systems

2.3 PAPR reduction methods

2.4 Link adaptation in multi-carrier systems

2.5 Reception techniques and CFO sensitivity

Chapter 3: Non-contiguous OFDM for future radio communications

3.1 Enhanced NC-OFDM with Cancellation Carriers

3.2 Reduction of subcarrier spectrum sidelobes by Flexible Quasi-Systematic Precoding

3.3 Reduction of nonlinear effects in NC-OFDM

3.4 NC-OFDM Receiver design

3.5 Summary: Potentials and challenges of NC-OFDM

Chapter 4: Generalized multi-carrier techniques for 5G radio

4.1 The principles of GMC

4.2 Peak-to-Average Power Ratio reduction in GMC transmitters

4.3 Link adaptation in GMC systems

4.4 GMC receiver issues

4.5 Summary

Chapter 5: Filter-bank based multicarrier technologies

5.1 The principles of FBMC transmission

5.2 FBMC transceiver design

5.3 Pulse Design

5.4 Practical FBMC systems design issues

5.5 Filter-bank based multicarrier systems revisited

5.6 Summary

Chapter 6: Multicarrier technologies for flexible spectrum usage

6.1 Cognitive radio

6.2 Spectrum sharing and licensing schemes

6.3 Dynamic spectrum access based on multicarrier technologies

6.4 Dynamic spectrum aggregation

6.5 Summary

Chapter 7: Conclusions and Future Outlook

HANNA BOGUCKA, PhD, is a professor at Poznan University of Technology (PUT) in Poznañ, Poland, where she has taught for more than 25 years. She is the co-editor of Opportunistic Spectrum Sharing and White Space Access: The Practical Reality (Wiley, 2015).

ADRIAN KLIKS, PhD, is an assistant professor at PUT. He has taught laboratory courses on Radio Communications and Programming of Mobile Devices.

PAWEA KRYSZKIEWICZ, PhD, is an assistant professor at PUT where he has taught laboratory courses on Radio Communications and Programming.