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Monitoring nuclear weapons stockpiles with radio waves | AI and International Law Blog

Monitoring nuclear weapons stockpiles with radio waves

Military Space News


Monitoring nuclear weapons stockpiles with radio waves


by Staff Writers


Bochum, Belgium (SPX) Oct 31, 2023

An international research team has proposed a new method for monitoring nuclear disarmament treaties. The IT security experts developed a mechanism that uses radio waves to remotely monitor whether any changes are being made in a specific room. The researchers describe how robust and secure the approach is in the journal Nature Communications. Teams from the Max Planck Institute for Security and Privacy (MPI-SP) in Bochum, Ruhr University Bochum, the School of Public and International Affairs at Princeton University, the University of Connecticut, Harvard University, PHYSEC GmbH, and Technische Universitat Berlin collaborated on the development.

The researchers approached their project from a scenario in which State A wants to ensure that there are no changes in State B’s nuclear weapons stockpile – and to do so without permanent on-site monitoring. Specifically, a major threat is indicated by the removal of stored nuclear warheads to prepare them for deployment.

“Our system uses two antennas to record a radio fingerprint of the room,” explains Dr. Johannes Tobisch, who earned his PhD on this research field in the CASA Cluster of Excellence at Ruhr University Bochum and MPI-SP and has since moved on to work in industry. One of the antennas emits a radio signal that is reflected off the walls and objects in the room. The other antenna records the signal. The recorded signal is characteristic: if the objects were moved only minimally, this would noticeably change the radio fingerprint. Major changes, such as the removal of a stored nuclear warhead, can thus be reliably detected.

Mirrors to guarantee security


However, this method can only work if state B measures the radio fingerprint at precisely the time when state A requests it. It’s therefore necessary to prevent State B from recording the radio fingerprint and sending the recording instead of a just-measured signal. “That would be like someone sticking a photo in front of a surveillance camera,” illustrates Johannes Tobisch.

For this reason, a setup with 20 rotating mirrors is initially installed in the room that is to be monitored. If the position of the mirrors changes, the radio fingerprint also changes. State A would record the radio fingerprints for different mirror positions during a one-time on-site visit and store them in a secret database. Periodically, State A could remotely request State B to send the radio fingerprint for a particular mirror position – and compare the measured data with the record in their secret database. If the data don’t match, there must have been a change in the room.

“Seventy percent of the world nuclear weapons are kept in storage for military reserve or awaiting dismantlement,” outlines Dr. Sebastien Philippe from Princeton University the importance of such a technique.

“The presence and number of such weapons at any given site cannot be verified easily via satellite imagery or other means that are unable to see into the storage vaults. Because of the difficulties to monitor them, these 9,000 nuclear weapons are not accounted for under existing nuclear arms control agreements. This new verification technology addresses this long-standing challenge and contributes to future diplomatic efforts that would seek to limit all nuclear weapon types.”

Setup in a field test


To test the idea, the researchers set up a container with movable barrels on the campus of Ruhr University Bochum, Germany, which they monitored using radio wave technology. Using this setup, they showed that radio fingerprints could be reliably reproduced for individual mirror settings. Different mirror settings also produced a variety of easily distinguishable radio fingerprints. If the researchers moved one of the barrels in the container, a few millimeters of displacement were enough to show up in the radio fingerprint.

The team also analyzed whether it’s possible to decipher how mirror positions and radio fingerprints correspond to each other using machine learning. Algorithms can indeed predict radio fingerprints if they recognize a number of mirror positions and the corresponding radio signals. Finding the connection, however, takes longer the more mirrors there are in the setup.

“With 20 mirrors, it would take eight weeks for an attacker to decode the underlying mathematical function,” points out Johannes Tobisch, adding: “Because of the scalability of the system, it’s possible to increase the security factor even more.”

“The technology combines cyber-physical security assessments, previously only possible on data and security chips, with cross-system physics in a completely new way. This enables new levels of trust, especially for the Internet of Things,” says Professor Christian Zenger, head of the Secure Mobile Communication research group at Ruhr University Bochum and CEO of PHYSEC GmbH.

“This research project is an excellent example of how novel technologies at the interface between security engineering and radio technologies can be used to solve problems that are of great importance to society,” says Professor Christof Paar of the Max Planck Institute in Bochum.

“At a time of heightened geopolitical tensions and with a new nuclear arms race brewing, this work is particularly timely and relevant,” concludes Sebastien Philippe.

Research Report:Remote inspection of adversary-controlled environments

Related Links

Ruhr-University Bochum

Max Planck Institute for Security and Privacy


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