Design of Artificial Interference Signals for Covert Communication Aided by Multiple Friendly Nodes

In this paper, we consider a scenario of covert communication aided by multiple friendly interference nodes. The objective is to conceal the legitimate communication link under the surveillance of a warden. The main content is as follows: first, we propose a novel strategy for generating artificial noise signals in the considered covert scenario. Then, we leverage the statistical information of channel coefficients to optimize the basis matrix of the artificial noise signals space in the absence of accurate channel fading information between the friendly interference nodes and the legitimate receiver. The optimization problem aims to design artificial noise signals within the space to facilitate covert communication while minimizing the impact on the performance of legitimate communication. Second, a customized Rimannian Stochastic Variance Reduced Gradient (R-SVRG) algorithm is proposed to solve the non-convex problem. In the algorithm, we employ the Riemannian optimization framework to analyze the geometric structure of the basis matrix constraints and transform the original non-convex optimization problem into an unconstrained problem on the complex Stiefel manifold for solution. Third, we theoretically prove the convergence of the proposed algorithm to a stationary point. In the end, we evaluate the performance of the proposed strategy for generating artificial noise signals through numerical simulations. The results demonstrate that our approach significantly outperforms the Gaussian artificial noise strategy without optimization.