Title :
Robust Joint Beamforming and Jamming for Secure AF Networks: Low-Complexity Design
Author :
Chao Wang ; Hui-Ming Wang
Author_Institution :
Sch. of Electron. & Inf. Eng., Xi´an Jiaotong Univ., Xi´an, China
Abstract :
This paper investigates the physical-layer security issue of an amplify-and-forward (AF) relay network. We propose a joint cooperative beamforming (CB) and cooperative jamming (CJ) design that is robust to the imperfect channel state information (CSI) of the multiple multiantenna eavesdroppers. The objective is the worst-case secrecy rate maximization (WCSRM). Based on the inner convex approximation and semidefinite relaxation (SDR) technique, the original nonconvex problem is transformed into a sequence of approximate convex problems, which can be solved conveniently. The proposed robust design guarantees to converge to a Karush-Kuhn-Tucker (KKT) solution and is efficient in computational complexity. Furthermore, we prove that SDR always has a rank-1 solution, which identifies that SDR is tight. Simulations demonstrate the validity of the proposed strategy.
Keywords :
amplify and forward communication; antenna arrays; approximation theory; array signal processing; computational complexity; jamming; optimisation; relay networks (telecommunication); telecommunication security; KKT solution; Karush-Kuhn-Tucker solution; WCSRM; amplify-and-forward relay network; computational complexity; convex approximation; cooperative jamming; imperfect channel state information; joint cooperative beamforming; low-complexity design; multiple multiantenna eavesdroppers; physical layer security; robust joint beamforming; semidefinite relaxation; worst-case secrecy rate maximization; Approximation methods; Array signal processing; Jamming; Joints; Relays; Robustness; Vectors; Cooperative beamforming (CB); inner convex approximation (ICA); jamming; secrecy rate; semidefinite relaxation (SDR);
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2014.2334640
