Security and Reliability Analysis of Satellite-Terrestrial Multirelay Networks With Imperfect CSI

This article investigates the security and reliability analysis for a novel satellite-terrestrial network. Specifically, a satellite attempts to transmit confidential information to a ground user via the support of multiple relay nodes in the presence of an eavesdropper that tries to overhear the information. A friendly jammer is deployed to improve the secure transmission between the satellite and the relays. Furthermore, satellite-to-relay generalized Rician fading channels and imperfect channel state information are deployed to examine a general system model. In this context, the closed-formed expressions for the outage probability and intercept probability are derived corresponding to an amplify-and-forward based relaying scheme, which is challenging and has not been studied before. Finally, the exactness of the mathematical analyses is validated through Monte Carlo simulations. Furthermore, the effects of various key parameters (e.g., channel estimation errors, satellite's transmit power, relay's transmit power, number of relays, and fading severity parameter) are examined.

Automated summary

This article investigates the security and reliability analysis for a novel satellite-terrestrial network. It examines the transmission of confidential information from a satellite to a ground user with the help of multiple relay nodes and the presence of an eavesdropper. The study analyzes the effects of imperfect channel state information and deploys a friendly jammer for secure transmission. The mathematical analyses are validated through Monte Carlo simulations, and the impact of various key parameters is examined.