@inproceedings{6426811,
 abstract = {We consider the problem of estimation and control of a linear system when some of the sensors or actuators are attacked by a malicious agent. In our previous work [1] we studied systems with no control inputs and we formulated the estimation problem as a dynamic error correction problem with sparse attack vectors. In this paper we extend our study and look at the role of inputs and control. We first show that it is possible to increase the resilience of the system to attacks by changing the dynamics of the system using state-feedback while having (almost) total freedom in placing the new poles of the system. We then look at the problem of stabilizing a plant using output-feedback despite attacks on sensors, and we show that a principle of separation of estimation and control holds. Finally we look at the effect of attacks on actuators in addition to attacks on sensors: we characterize the resilience of the system with respect to actuator and sensor attacks and we formulate an efficient optimization-based decoder to estimate the state of the system despite attacks on actuators and sensors.},
 author = {Fawzi, H. and Tabuada, P. and Diggavi, S.},
 booktitle = {Decision and Control (CDC), 2012 IEEE 51st Annual Conference on},
 doi = {10.1109/CDC.2012.6426811},
 file = {:papers:security_cdc.pdf},
 issn = {0743-1546},
 month = {Dec},
 pages = {3412-3417},
 tags = {conf,SecureCPS},
 title = {Security for control systems under sensor and actuator attacks},
 type = {4},
 year = {2012}
}

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