Xiaohui Zhang scite author profile

This paper investigates a secure energy efficiency (SEE) optimization problem in a multiple-input single-output (MISO) underlay cognitive radio (CR) network. In particular, a multi-antenna secondary transmitter (SU-Tx) simultaneously sends secured information and energy to a secondary receiver (SU-Rx) and an energy receiver (ER), respectively, in the presence of a primary receiver (PU-Rx). It is assumed that the SU-Rx, ER and PU-Rx are each equipped with a single antenna. In addition, the SU-Tx should satisfy constraints on maximum interference leakage to the PU-Rx and minimum harvested energy at the ER. In this CR network, we consider the transmit covariance matrix design with the assumption of perfect channel state information (CSI) at the SU-Tx. In addition, it is assumed that the ER is a potential passive eavesdropper due to broadcast nature of wireless transmission. On the other hand, we consider the worst-case scenario that ER's energy harvesting requirement is only satisfied when it performs only energy harvesting without intercepting or eavesdropping information intended for the SU-Rx. We formulate this transmit covariance matrix design as a SEE maximization problem which is a non-convex problem due the non-linear fractional objective function. To realize the solution for this non-convex problem, we utilize the non-linear fractional programming and difference of concave (DC) functions approaches to reformulate into a tractable form. Based on these techniques and the Dinkelbach's method, we propose iterative algorithms to determine the solution for the original SEE maximization problem. Numerical simulation results are provided to demonstrate the performance of the proposed transmit covariance matrix design and convergence of the proposed algorithms. Index Terms-Secure energy efficiency (SEE), energy harvesting , MISO, convex optimization.

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Physical-Layer Secrecy Performance in Finite Blocklength Case

Cao

Liu

et al. 2015

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Weighted Sum of Energy Efficiency Beamforming Strategy for MIMO Cognitive Radio Network

Zhang

Yang

2020

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Xiaohui Zhang

Distributed Energy Efficiency Optimization for MIMO Cognitive Radio Network

Iterative IQ Imbalance Compensation Receiver for Single Carrier Transmission

Energy efficiency optimization for MIMO cognitive radio network

Physical-Layer Secrecy Performance in Finite Blocklength Case

Weighted Sum of Energy Efficiency Beamforming Strategy for MIMO Cognitive Radio Network

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