TY - BOOK
T1 - Trusted communications with physical layer security for 5G and beyond
AU - Duong, Trung Q.
AU - Zhou, Xiangyun (Sean)
AU - Poor, H. Vincent
N1 - Publisher Copyright:
© The Institution of Engineering and Technology 2017.
PY - 2017/1/1
Y1 - 2017/1/1
N2 - 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.
AB - 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.
KW - 5G mobile communication
KW - 5G systems
KW - Antenna selection strategies
KW - Cellular radio
KW - Cognitive radio
KW - Cognitive radio networks
KW - Confidential energy-efficient communications
KW - D2D-enabled cellular networks
KW - Directional-modulation-enabled physical-layer wireless security
KW - Fading channels
KW - MIMO communication
KW - MIMOME-OFDM systems
KW - Massive MIMO systems
KW - Mmwave cellular networks
KW - Multiuser relay networks
KW - Non-orthogonal multiple access
KW - OFDM modulation
KW - Relay networks (telecommunication)
KW - Secrecy coding
KW - Secrecy metrics
KW - Secure data networks
KW - Space division multiplexing
KW - Spatial multiplexing
KW - Telecommunication security
KW - Trusted wireless communications
KW - Wireless channels
KW - Wirelessly powered communication systems
KW - Wiretap channels
UR - http://www.scopus.com/inward/record.url?scp=85088700543&partnerID=8YFLogxK
U2 - 10.1049/PBTE076E
DO - 10.1049/PBTE076E
M3 - Book
BT - Trusted communications with physical layer security for 5G and beyond
PB - Institution of Engineering and Technology
ER -