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Physical layer security allows secure communications between a source and destination without the need to resort to key-based encryption techniques. Its increasing importance stems from the difficulty of implementing advanced encryption techniques in certain networks, such as the internet of things (IoT). In this paper, physical layer security is implemented by using massive multiple input multiple...
The need for physical layer security techniques is increasing with the deployments of machine to machine (M2M), internet of things (IoT), and device to device (D2D) communications. An important aspect of physical layer security is to perform covert communications of a possibly unencrypted signal without allowing an eavesdropper to detect the signal. In this paper, cylindrical antenna arrays with a...
Opportunistic beamforming is investigated in the context of multicell OFDMA uplink scheduling. A low complexity scheduling algorithm for utility maximization with opportunistic beamforming is presented. Beams are formed in a pseudorandom fashion thus allowing users to opportunistically benefit from the antenna gain and interference rejection capabilities. The simulations for resource allocation in...
Opportunistic beamforming is investigated in OFDMA uplink. A low complexity scheduling algorithm for utility maximization with opportunistic beamforming is presented. Scheduling with greedy and proportional fair utilities is studied. A beam is formed in a pseudorandom fashion thus leading to artificial fading variations. This allows users to opportunistically benefit from the antenna gain. Results...
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