Spatial-Domain Wireless Jamming with Reconfigurable Intelligent Surfaces

Today, we rely heavily on the constant availability of wireless communication systems. As a result, wireless jamming continues to prevail as an imminent threat: Attackers can create deliberate radio interference to overshadow desired signals, leading to denial of service. Although the broadcast nature of radio signal propagation makes such an attack possible in the first place, it likewise poses a challenge for the attacker, preventing precise targeting of single devices. In particular, the jamming signal will likely not only reach the victim receiver but also other neighboring devices. In this work, we introduce spatial control of wireless jamming signals, granting a new degree of freedom to leverage for jamming attacks. Our novel strategy employs an environment-adaptive reconfigurable intelligent surface (RIS), exploiting multipath signal propagation to spatially focus jamming signals on particular victim devices. We investigate this effect through extensive experimentation and show that our approach can disable the wireless communication of a victim device while leaving neighbouring devices unaffected. In particular, we demonstrate complete denial-of-service of a Wi-Fi device while a second device located at a distance as close as 5 mm remains unaffected, sustaining wireless communication at a data rate of 60 Mbit/s. We also show that the attacker can change the attack target on-the-fly, dynamically selecting the device to be jammed.