Optimal Beamforming for Uplink Covert Communication in MIMO GEO Satellite-Terrestrial Systems

TL;DR

This paper develops optimal beamforming and antenna orientation strategies to enhance covert uplink communication in MIMO GEO satellite-terrestrial systems, considering perfect and imperfect channel knowledge.

Contribution

It introduces novel joint beamforming and antenna orientation designs for maximizing covert rate in satellite systems, including algorithms for practical implementation.

Findings

Optimal beamforming significantly improves covert communication performance.

Joint design outperforms separate beamforming and orientation strategies.

Algorithms effectively handle perfect and imperfect channel estimation scenarios.

Abstract

This paper investigates the uplink covert communication in a multiple-input multiple-output (MIMO) satellite-terrestrial system consisting of an Earth station transmitter Alice, a geosynchronous Earth orbit (GEO) satellite receiver Bob, and multiple GEO satellite wardens around Bob, where each node in the system is equipped with an array of directional antennas. Based on beamforming and the default antenna orientation setting, we first propose a scheme for covert Alice-Bob uplink transmission. Under the perfect channel estimation scenario, we provide theoretical modeling for the system performance in terms of detection error probability (DEP), transmission outage probability (TOP) and covert rate (CR), and then explore the optimal beamforming (OB) design as well as the joint optimal beamforming and antenna orientation (JO-BA) design for CR maximization. We then extend our study to the imperfect channel estimation scenario, and conduct related performance modeling and OB/JO-BA designs for CR maximization. We also apply the techniques of semidefinite relaxation, alternating optimization, Rodrigues' rotation formula and 1-D search algorithm to develop efficient algorithms to solve the above optimization problems. Finally, extensive numerical results are presented to verify our theoretical results and to illustrate the efficiency of beamforming and antenna orientation design for supporting the uplink covert communication in MIMO GEO satellite-terrestrial systems.