Secure Traffic Lights: Replay Attack Detection for Model-based Smart Traffic Controllers
Abstract
Rapid urbanization calls for smart traffic management solutions that incorporate sensors, distributed traffic controllers and V2X communication technologies to provide fine-grained traffic control to mitigate congestion. As in many other cyber-physical systems, smart traffic management systems typically lack security measures. This allows numerous opportunities for adversarial entities to craft attacks on the sensor networks, wireless data sharing and/or the distributed traffic controllers. We show that such vulnerabilities can be exploited to disrupt mobility in a large urban area and cause unsafe conditions for drivers and the pedestrians on the roads. Specifically, in this paper, we look into vulnerabilities in model-based traffic controllers and show that, even with state-of-the-art attack detectors in place, false-data injection can be used to hamper mobility. We demonstrate a replay attack by modeling an isolated intersection in VISSIM, a popular traffic simulator and also discuss countermeasures to thwart such attacks.
Cite
@article{arxiv.2003.04244,
title = {Secure Traffic Lights: Replay Attack Detection for Model-based Smart Traffic Controllers},
author = {Pratham Oza and Mahsa Foruhandeh and Ryan Gerdes and Thidapat Chantem},
journal= {arXiv preprint arXiv:2003.04244},
year = {2020}
}