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A Safety Constrained Control Framework for UAVs in GPS Denied Environment

Wenbin Wan, Hunmin Kim, Naira Hovakimyan, Lui Sha, Petros G. Voulgaris

202013 citationsDOI

Abstract

Unmanned aerial vehicles (UAVs) suffer from sensor drifts in GPS denied environments, which can lead to potentially dangerous situations. To avoid intolerable sensor drifts in the presence of GPS spoofing attacks, we propose a safety constrained control framework that adapts the UAV at a path re-planning level to support resilient state estimation against GPS spoofing attacks. The attack detector is used to detect GPS spoofing attacks and provides a switching criterion between the robust control mode and emergency control mode. An attacker location tracker (ALT) is developed to track the attacker's location and estimate the spoofing device's output power by the unscented Kalman filter (UKF) with sliding window outputs. Using the estimates from ALT, we design an escape controller (ESC) based on the model predictive controller (MPC) such that the UAV escapes from the effective range of the spoofing device within the escape time.

Topics & Concepts

Spoofing attackGlobal Positioning SystemComputer scienceKalman filterReal-time computingController (irrigation)Control (management)Control theory (sociology)Computer securityArtificial intelligenceTelecommunicationsBiologyAgronomySmart Grid Security and ResilienceGuidance and Control SystemsTarget Tracking and Data Fusion in Sensor Networks
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