同时无线信息与能量传输，又称作无线携能通信，是提高5G及下一代无线通信网络能量利用率的有效技术。信息和能量同时传输对安全性提出了新的挑战。本项目以改善安全性和提高资源利用率为目标，研究无线携能网络中的物理层安全传输技术。考虑非精确信道状态信息、非线性能量采集等实际因素，以凸优化、鲁棒优化、矩阵论为主要理论依据，灵活运用半正定松弛、交替优化、连续凸近似、拉格朗日对偶等方法，解决不同场景下波束成形、预编码、人工噪声、功率分割因子等关键参数的设计问题，揭示不同的信号传输方式与安全性能间的关系。进一步，为获得安全性与其他性能的折衷，以多目标优化为理论依据，通过合理设计优化问题，研究满足安全条件下兼顾其他需求的信号传输方式，使资源得到充分利用，为无线携能网络的信息安全传输提供理论指导和技术支撑。

Simultaneous wireless information and power transfer (SWIPT), is an effective technology to improve the energy efficiency in 5G and beyond wireless communication network. However, transmit information and energy simultaneously poses new challenges to security. This project investigates the physical layer security transmission technology in SWIPT network, aim to improve the secrecy performance and the resource utilization rate. By taking into consideration several practical factors, such as the imperfect channel state information and the non-linear energy harvesting model, we aim to design some key parameters such as the beamforming, precoding, artificial noise and power splitting ratio in different scenarios, and reveal the relationship between the secrecy performance with different signal transmission ways. Our method is mainly based on the convex optimization, robust optimization and matrix theory, which flexibly utilizes various methods such as the semi-definite relaxation, alternating optimization, successive convex approximation and Lagrange duality. Furthermore, to obtain the compromise between the security with other performances, we investigate the signal transmission method to meet other requirements, under the constraint of security. In addition, based on the multi-objective optimization theory, we design the optimization problem reasonably, to make full use of the resource. In general, the results of this project provide both theoretical guidelines and technical support for the information security transmission in SWIPT networks.