Southwest Research Institute (SwRI) has developed a cybersecurity system to test for vulnerabilities in automated vehicles and other technologies that use GPS receivers for positioning, navigation, and timing.
GPS spoofing is a malicious attack that broadcasts incorrect signals to GPS receivers, while GPS manipulation modifies a real GPS signal. GPS satellites orbiting the Earth pinpoint physical locations of GPS receivers embedded in everything from smartphones to ground vehicles and aircraft. SwRI designed the new tool to meet United States federal regulations. Testing for GPS vulnerabilities in a mobile environment had previously been difficult because federal law prohibits over-the-air re-transmission of GPS signals without prior authorization.
SwRI's spoofing test system places a physical component on or in line with a vehicle's GPS antenna and a ground station that remotely controls the GPS signal. The system receives the actual GPS signal from an on-vehicle antenna, processes it and inserts a spoofed signal, and then broadcasts the spoofed signal to the GPS receiver on the vehicle. This gives the spoofing system full control over a GPS receiver.
While testing the system on an automated vehicle on a test track, engineers were able to alter the vehicle's course by 10 meters, effectively causing it to drive off the road. The vehicle could also be forced to turn early or late.
Most automated vehicles will not rely solely on GPS because they use a combination of sensors such as lidar, camera machine vision, GPS and other tools. However, GPS is a basis for positioning in a lot of systems, so it is important for manufacturers to have the ability to design technology to address vulnerabilities.
SwRI develops automotive cybersecurity solutions on embedded systems and internet of things (IoT) technology featuring networks and sensors. Connected and autonomous vehicles are vulnerable to cyber threats because they broadcast and receive signals for navigation and positioning.
Click here to learn more about SwRI’s Cyber Systems Security.