RIS-Aided Monitoring With Cooperative Jamming: Design and Performance Analysis

TL;DR

This paper explores a RIS-assisted wireless surveillance system that uses cooperative jamming and partial CSI to improve monitoring success, proposing optimized schemes and analyzing their performance under various conditions.

Contribution

It introduces two RIS-aided monitoring schemes with optimal jammer selection using partial CSI, along with benchmark schemes and performance analysis in different scenarios.

Findings

Optimal jammer selection improves surveillance success probability.

RIS with large number of elements enhances monitoring performance.

Power control in jammers can mimic passive monitoring effects.

Abstract

We investigate a reconfigurable intelligent surface (RIS) aided wireless surveillance system. In this system, a monitor not only receives signal from suspicious transmitter via a RIS-enhanced legitimate surveillance (LS) link but also simultaneously takes control of multiple jammers to degrade the quality of received suspicious signal. Under this setup, to enhance monitoring performance requires improvements of both the received signal quality at the monitor and the cooperative jamming (CJ). Considering that the surveillance system is aided by one RIS, whose phase shift optimization involves both channel state information (CSI) of the LS and CJ links, we utilize partial CSI to alleviate the CSI acquisition burden in our design. We propose two RIS-aided monitoring schemes with optimal jammer selection (OJS), and derive their closed-form expressions of surveillance success probability (SSP), respectively. Furthermore, we consider RIS-aided monitoring schemes with random jammer selection as corresponding benchmarks. Thereafter, we analyze special cases where the jammers are using power control to avoid being found, making it appears like passive monitoring. Also, the effect of RIS is highlighted by considering asymptotically large number of RIS elements. Numerical results verify that the proposed OJS strategy further enhances the RIS-aided monitoring performance compared with non-jammer-selection RISLR and RISCR schemes, where the superiority comes at the cost of CSI knowledge and becomes marginal in the region of high jamming power. In addition, the RISLO shows surveillance performance advantage overRISCOwhen the suspicious power is low or when the number of RIS elements is large.