https://shop.theiet.org:443/editors/trung-q-duong-xiangyun-zhou-h-vincent-poorTrung Q. Duong, Xiangyun Zhou, H. Vincent Poorhttps://shop.theiet.org:443/trusted-communications<p xmlns="http://ns.editeur.org/onix/3.0/reference">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.</p><p xmlns="http://ns.editeur.org/onix/3.0/reference">Topics covered in <i>Trusted Communications with Physical Layer Security for 5G and Beyond</i> 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.</p>Tue, 12 Jun 2018 01:39:17 GMThttps://shop.theiet.org:443/trusted-communications