Ruhr-Uni-Bochum
HGI

New Countermeasure Against Unwanted Wireless Surveillance

Wirelessly functioning devices, such as routers or voice assistants, are now omnipresent in our households. At the same time, wireless communication endangers our privacy: Passive eavesdroppers are able to obtain sensitive data through intercepted high-frequency signals.

Photo IRShield

The intelligent reflecting surface / IRShield is positioned next to a Wi-Fi router for obfuscation of the environment-dependent wireless channel.

Copyright: Michael Schwettmann

Smart devices are supposed to make our everyday lives easier. At the same time, however, they are a gateway for passive eavesdropping. To prevent possible surveillance of the movement profile within one's home, researchers from the Max Planck Institute for Security and Privacy (MPI-SP), the Horst Görtz Institute for IT Security (HGI) and the Cologne University of Applied Sciences (TH Köln) have developed a novel system for protecting privacy in wireless communication. The method, based on the technology of intelligent reflective surfaces, will be presented by the researchers on May 24, 2022 at the IEEE Symposium on Security and Privacy.

Surveillance of Premises From a Distance
Almost all Internet-of-Things (IoT) devices, such as voice assistants, locks and cameras, rely on wireless connections based on high-frequency radio signals. Although cryptographic techniques are already in use to ensure data confidentiality, passive eavesdroppers can still exploit sensitive information from intercepted radio frequency signals. This is possible because the propagation of the signals is affected by the physical environment of the devices – by reflections from walls, objects and people present. Attackers can perceive such effects from a distance and, by applying simple statistical methods, conclude, for example, that a person is currently moving in the monitored room.

Innovative Approach Against Wireless Eavesdropping Attacks
To counter this method, known as "adversarial wireless sensing", the team investigated the use of Intelligent Reflecting Surfaces (IRS). IRS are considered a forward-looking technology for establishing intelligent wireless environments: Here, many reflective elements are distributed over a surface and their reflective behavior can be individually and electronically adjusted. This allows the elements to dynamically manipulate the incident radio waves. For example, IRS can be configured to reflect signals in a specific direction.

With their approach, the researchers are the first in the world to propose IRS as a practical countermeasure against passive wireless eavesdropping attacks. As a novel countermeasure, they have developed a system called "IRShield". IRShield uses a specially designed algorithm that creates a random IRS configuration, i.e., randomly aligns the reflective elements. This disguises the wireless channels in such a way that attackers can no longer read information about movements in the room from the signal. In this context, IRShield is designed as a standalone, privacy-friendly extension for plug-and-play integration into existing wireless infrastructures. In contrast to previous research in the field, the IRShield researchers were able to meet three important requirements with their approach: (1) the solution works independently of the devices, radio waveforms, and standards used, (2) it does not compromise the quality of the wireless link, and (3) it achieves very high channel obfuscation.

Pioneering Research Results
The team tested how successfully IRShield can prevent state-of-the-art human motion detection attacks using off-the-shelf Wi-Fi devices: 95 percent of the attacks were unsuccessful thanks to IRShield. In certain cases, it even made motion detection largely impossible, regardless of the attacker's strategy. The team's findings can serve as a starting point for much further work, such as optimizing IRS configurations or investigating methods used by more advanced attackers.

Funding
The work was supported by the German Federal Ministry of Education and Research (BMBF) under the MetaSEC project (grant number 16KIS1234K) and the German Research Foundation under the Cluster of Excellence Cyber Security in the Age of Large-Scale Adversaries, CASA (EXC 2092 - 390781972).

Original Publication
Paul Staat, Simon Mulzer, Stefan Roth, Veelasha Moonsamy, Markus Heinrichs, Rainer Kronberger, Aydin Sezgin, Christof Paar: IRShield: A Countermeasure Against Adversarial Physical-Layer Wireless Sensing, IEEE Symposium on Security and Privacy, 2022, DOI: https://doi.ieeecomputersociety.org/10.1109/SP46214.2022.00097

Press Contact:
Paul Staat
Max Planck Institute for Security and Privacy, Bochum
E-Mail: Paul.Staat(at)mpi-sp.org

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