Physical layer security is emerging as a promising means of ensuring secrecy in wireless communications. The key idea is to exploit the characteristics of wireless channels such as fading or noise to transmit a message from the source to the intended receiver while keeping this message confidential from eavesdroppers.
Topics covered in Trusted Communications with Physical Layer Security for 5G and Beyond include secrecy metrics for physical layer security over fading channels; trusted wireless communications with spatial multiplexing; directional modulation enabled physical layer wireless security; secure waveform for 5G systems; confidential and energy efficient communications using physical layer security; secure data networks with channel uncertainty; antenna selection strategies for wiretap channels; physical layer security for massive MIMO systems, millimeter wave cellular networks, non-orthogonal multiple access, multiuser relay networks, cognitive radio networks, MIMOME-OFDM systems; wirelessly powered communication systems and D2D-enabled cellular networks; and security solutions and applications at the physical layer, including case studies of secret key generation and secrecy coding in communication nodes and terminals.
Part I: Fundamentals of physical layer security
Chapter 1: Secrecy metrics for physical layer security over fading channels
Chapter 2: Secure data networks with channel uncertainty
Chapter 3: Confidential and energy-efficient communications by physical layer
security
Part II: Physical layer security for multiple antenna technologies
Chapter 4: Antenna selection strategies for wiretap channels
Chapter 5: Physical layer security for massive MIMO systems
Chapter 6: Physical layer security for massive MIMO with anti-jamming
Chapter 7: Physical layer security for multiuser relay networks
Chapter 8: Trusted wireless communications with spatial multiplexing
Part III: Physical layer security with emerging 5G technologies
Chapter 9: Physical layer security for wirelessly powered communication
systems
Chapter 10: Physical layer security for D2D-enabled cellular networks
Chapter 11: Physical layer security for cognitive radio networks
Chapter 12: Physical layer security in mmWave cellular networks
Part IV: Physical layer security with emerging modulation technologies
Chapter 13: Directional-modulation-enabled physical-layer wireless security
Chapter 14: Secure waveforms for 5G systems
Chapter 15: Physical layer security in non-orthogonal multiple access
Chapter 16: Physical layer security for MIMOME-OFDM systems: spatial versus
temporal artificial noise
Part V: Applications of physical layer security
Chapter 17: Physical layer security for real-world applications: use cases,
results and open challenges
Chapter 18: Key generation from wireless channels: a survey and practical
implementation
Chapter 19: Application cases of secret key generation in communication nodes
and terminals
Chapter 20: Application cases of secrecy coding in communication nodes and
terminals
Trung Q. Duong is an Assistant Professor at Queen's University Belfast, UK and Research Fellow of the UK Royal Academy of Engineering. He is author of more than 250 technical papers and currently serves on the Editorial Board of IEEE Transactions on Wireless Communications, IEEE Transactions on Communications, and IEEE Communications Letters. He has been the founder and an organizer of a series of IEEE GLOBECOM workshops on Trusted Communications with Physical Layer Security.
Xiangyun (Sean) Zhou currently works as a Senior Lecturer within the Research School of Engineering at the Australian National University. He serves on the Editorial Board of IEEE Transactions on Wireless Communications and IEEE Communications Letters, and has been an organizer and chair of international workshops on Wireless Physical Layer Security.
H. Vincent Poor is the Michael Henry Strater University Professor of Electrical Engineering at Princeton University, USA. He is a Fellow of the IEEE and the IET, Member of the U.S. National Academy of Engineering and the U.S. National Academy of Sciences, a Foreign Member of the Royal Society and an International Fellow of the Royal Academy of Engineering. Recent recognition of his work includes the 2016 John Fritz Medal and the 2017 IEEE Alexander Graham Bell Medal.
Lisainfo e-raamatute kohta