DISCO Might Not Be Funky: Random Intelligent Reflective Surface Configurations That Attack

TL;DR

This paper introduces a novel passive jamming method using random, reflective intelligent surfaces that can disrupt wireless communication without energy or channel information, and proposes countermeasures.

Contribution

It presents the concept of a DIRS-based fully-passive jammer and an anti-jamming strategy requiring only statistical CSI, advancing physical layer security research.

Findings

DIRS-based FPJ can be implemented without jamming power or CSI.

The anti-jamming strategy only needs statistical CSI.

Feasibility demonstrated through analysis and discussion.

Abstract

Emerging intelligent reflective surfaces (IRSs) significantly improve system performance, but also pose a significant risk for physical layer security (PLS). Unlike the extensive research on legitimate IRS-enhanced communications, in this article we present an adversarial IRS-based fully-passive jammer (FPJ). We describe typical application scenarios for Disco IRS (DIRS)-based FPJ, where an illegitimate IRS with random, time-varying reflection properties acts like a "disco ball" to randomly change the propagation environment. We introduce the principles of DIRS-based FPJ and overview existing investigations of the technology, including a design example employing one-bit phase shifters. The DIRS-based FPJ can be implemented without either jamming power or channel state information (CSI) for the legitimate users (LUs). It does not suffer from the energy constraints of traditional active jammers, nor does it require any knowledge of the LU channels. In addition to the proposed jamming attack, we also propose an anti-jamming strategy that requires only statistical rather than instantaneous CSI. Furthermore, we present a data frame structure that enables the legitimate access point (AP) to estimate the DIRS-jammed channels' statistical characteristics in the presence of the DIRS jamming. Typical cases are discussed to show the impact of the DIRS-based FPJ and the feasibility of the anti-jamming precoder (AJP). Moreover, we outline future research directions and challenges for the DIRS-based FPJ and its anti-jamming precoding to stimulate this line of research and pave the way for practical applications.