Secure Estimation based Kalman Filter for Cyber-Physical Systems against Adversarial Attacks
Title | Secure Estimation based Kalman Filter for Cyber-Physical Systems against Adversarial Attacks |
Publication Type | Journal Article |
Year of Publication | 2015 |
Authors | Young Hwan Chang, Qie Hu, Claire J. Tomlin |
Journal | CoRR |
Volume | abs/1512.03853 |
Keywords | SURE Project |
Abstract | Cyber-physical systems (CPSs) are found in many applications such as power networks, manufacturing processes, and air and ground transportation systems. Maintaining security of these systems under cyber attacks is an important and challenging task, since these attacks can be erratic and thus difficult to model. Secure estimation problems study how to estimate the true system states when measurements are corrupted and/or control inputs are compromised by attackers. The authors in [1] proposed a secure estimation method when the set of attacked nodes (sensors, controllers) is fixed. In this paper, we extend these results to scenarios in which the set of attacked nodes can change over time. We formulate this secure estimation problem into the classical error correction problem [2] and we show that accurate decoding can be guaranteed under a certain condition. Furthermore, we propose a combined secure estimation method with our proposed secure estimator above and the Kalman Filter (KF) for improved practical performance. Finally, we demonstrate the performance of our method through simulations of two scenarios where an unmanned aerial vehicle is under adversarial attack. |
URL | http://arxiv.org/abs/1512.03853 |
Citation Key | DBLP:journals/corr/ChangHT15 |