计算机科学
波束赋形
信道状态信息
数学优化
人为噪声
无线
最大功率转移定理
凸优化
最优化问题
概率逻辑
算法
功率(物理)
物理层
正多边形
数学
电信
人工智能
物理
量子力学
几何学
作者
Hehao Niu,Zheng Chu,Fuhui Zhou,Zhengyu Zhu,Li Zhen,Kai‐Kit Wong
标识
DOI:10.1109/twc.2021.3126833
摘要
This paper investigates the robust beamforming design in a secrecy multiple-input single-output (MISO) network aided by the intelligent reflecting surface (IRS) with simultaneous wireless information and power transfer (SWIPT). Specifically, by considering that the energy receivers (ERs) are potential eavesdroppers (Eves) and imperfect channel state information (CSI) of the direct and cascaded channels can be obtained, we investigate the max-min fairness robust secrecy design. The objective is to maximize the minimum robust information rate among the legitimate information receivers (IRs). To solve the formulated non-convex design problem in bounded and probabilistic CSI error models, we utilize the alternating optimization (AO) and successive convex approximation (SCA) methods to obtain an approximate problem. Then, an iteration-based algorithm framework was proposed, where the unit modulus constraint (UMC) of the IRS is handled by the penalty dual decomposition (PDD) method. Moreover, a stochastic SCA method is proposed to handle the outage constrained design with statistical CSI. Finally, simulation results validate the promising performance of the proposed design.
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