Robust Trajectory and Transmit Power Optimization for Secure UAV-Enabled Cognitive Radio Networks
March 08, 2020 Β· Declared Dead Β· π IEEE Transactions on Communications
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Authors
Yifan Zhou, Fuhui Zhou, Huilin Zhou, Derrick Wing Kwan Ng, Rose Qingyang Hu
arXiv ID
2005.03091
Category
cs.IT: Information Theory
Cross-listed
eess.SP
Citations
90
Venue
IEEE Transactions on Communications
Last Checked
4 months ago
Abstract
Cognitive radio is a promising technology to improve spectral efficiency. However, the secure performance of a secondary network achieved by using physical layer security techniques is limited by its transmit power and channel fading. In order to tackle this issue, a cognitive unmanned aerial vehicle (UAV) communication network is studied by exploiting the high flexibility of a UAV and the possibility of establishing line-of-sight links. The average secrecy rate of the secondary network is maximized by robustly optimizing the UAV's trajectory and transmit power. Our problem formulation takes into account two practical inaccurate location estimation cases, namely, the worst case and the outage-constrained case. In order to solve those challenging non-convex problems, an iterative algorithm based on $\mathcal{S}$-Procedure is proposed for the worst case while an iterative algorithm based on Bernstein-type inequalities is proposed for the outage-constrained case. The proposed algorithms can obtain effective suboptimal solutions of the corresponding problems. Our simulation results demonstrate that the algorithm under the outage-constrained case can achieve a higher average secrecy rate with a low computational complexity compared to that of the algorithm under the worst case. Moreover, the proposed schemes can improve the secure communication performance significantly compared to other benchmark schemes.
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