Optimal Friendly Jamming and Transmit Power Allocation in RIS-assisted Secure Communication

TL;DR

This paper investigates how to optimize power allocation in RIS-assisted secure wireless systems with friendly jammers to minimize secrecy outage probability, demonstrating significant performance gains.

Contribution

It introduces a closed-form approximation for SOP and derives an optimal power allocation strategy for transmitters and jammers in RIS-assisted systems.

Findings

Optimal power allocation reduces SOP significantly.

Introduction of friendly jammer improves secrecy performance.

Approximately 3 dB gain at SOP of 10^{-4} with optimal allocation.

Abstract

This paper analyzes the secrecy performance of a reconfigurable intelligent surface (RIS) assisted wireless communication system with a friendly jammer in the presence of an eavesdropper. The friendly jammer enhances the secrecy by introducing artificial noise towards the eavesdropper without degrading the reception at the destination. Approximate secrecy outage probability (SOP) is derived in closed form. We also provide a simpler approximate closed-form expression for the SOP in order to understand the effect of system parameters on the performance and to find the optimal power allocation for the transmitter and jammer. The optimal transmit and jamming power allocation factor is derived by minimizing the SOP assuming a total power constraint. It is shown that the SOP performance is significantly improved by the introduction of the jammer and a gain of approximately $3$ dB is achieved at an SOP of $10^{-4}$ by optimally allocating power compared to the case of equal power allocation.