The US Defense has sponsored the development of the System-Aware Secure Sentinel, a system to shield unmanned aerial vehicles from cyber-attacks. The system developed with funds from the US Department of Defense, the project involved research teams at the Georgia Institute of Technology and the University of Virginia.
Drones are widely used in both military and private industry, but threat actors are increasing the number of cyber attacks against these versatile vehicles. As military and commercial drone use continues to grow in a significant way, protecting them against cyber attacks will become a priority.
For this reason, the US Government is investing to improve the resilience through research and development of new solutions.
The System-Aware Secure Sentinel is a new system designed to detect “illogical behavior” compared to normal operating patterns of the aircraft.
“Detections can serve to initiate automated recovery actions and alert operators of the attack,” explained Barry Horowitz, a systems and information engineer at the University of Virginia in Charlottesville.
The system is crucial to prevent cyber attack against US drones that could cause damages or hijacking of the vehicles, as happened in 2011 when a US spy drone RQ-170 Sentinel drone was brought down by Iranians cyber units while it was flying in the country.
The Iranian Government claimed to have hit the drone with a “spoofing” attack that allowed to force the UAV landing in the territories controlled by Iranian militia.
“The principle behind the GPS spoofing attack is that sending to control system of the drone fake geographic coordinates it is possible to deceive the on board system hijacking the vehicle in a different place for which it is commanded.
A similar attack is possible due the leak of use of encrypted GPS signal, a common occurrence for civilian aviation, according to Noel Sharkey, co-founder of the International Committee for Robot Arms Control.
“It’s easy to spoof an unencrypted drone. Anybody technically skilled could do this – it would cost them some £700 for the equipment and that’s it,” Last year he declared to the BBC News.
A UAV could be directed somewhere using its GPS, a spoofer can make drone think it’s somewhere else and make it crash into a specific target, contrary to what we can think it wouldn’t be too hard for a very skilled attacker to manipulate an unencrypted signal sent to a drone and spoof them.” I wrote in a past blog post.
The System-Aware Secure Sentinel was tested against different cyber threats during a five day test session. The experts tested the capability of the system to prevent drone hacking with cyber-attacks launched from the ground, by other flying vehicles and interference with supply chains and attacks from military insiders.
The test session stressed the capabilities of the System-Aware Secure Sentinel on four different areas:
and as explained by the researchers the test results are exciting, the system was able to detect cyber-attacks in evry circumstance.
“The inflight testing gauged the effectiveness of the countermeasure technology in hardening the unmanned system’s cyber agility and resiliency under attack conditions,” the researchers said.
The University of Virginia recently licensed the technology to software firm Mission Secure Inc., which is currently working to commercialize the solution.
(Security Affairs – drone hacking, System-Aware Secure Sentinel)
Necessary cookies are absolutely essential for the website to function properly. This category only includes cookies that ensures basic functionalities and security features of the website. These cookies do not store any personal information.
Any cookies that may not be particularly necessary for the website to function and is used specifically to collect user personal data via analytics, ads, other embedded contents are termed as non-necessary cookies. It is mandatory to procure user consent prior to running these cookies on your website.