Visible to the public Biblio

Filters: Author is Teixeira, A. M. H.  [Clear All Filters]
2017-12-28
Sandberg, H., Teixeira, A. M. H..  2016.  From control system security indices to attack identifiability. 2016 Science of Security for Cyber-Physical Systems Workshop (SOSCYPS). :1–6.

In this paper, we investigate detectability and identifiability of attacks on linear dynamical systems that are subjected to external disturbances. We generalize a concept for a security index, which was previously introduced for static systems. The index exactly quantifies the resources necessary for targeted attacks to be undetectable and unidentifiable in the presence of disturbances. This information is useful for both risk assessment and for the design of anomaly detectors. Finally, we show how techniques from the fault detection literature can be used to decouple disturbances and to identify attacks, under certain sparsity constraints.

2017-11-27
Pan, K., Teixeira, A. M. H., Cvetkovic, M., Palensky, P..  2016.  Combined data integrity and availability attacks on state estimation in cyber-physical power grids. 2016 IEEE International Conference on Smart Grid Communications (SmartGridComm). :271–277.

This paper introduces combined data integrity and availability attacks to expand the attack scenarios against power system state estimation. The goal of the adversary, who uses the combined attack, is to perturb the state estimates while remaining hidden from the observer. We propose security metrics that quantify vulnerability of power grids to combined data attacks under single and multi-path routing communication models. In order to evaluate the proposed security metrics, we formulate them as mixed integer linear programming (MILP) problems. The relation between the security metrics of combined data attacks and pure data integrity attacks is analyzed, based on which we show that, when data availability and data integrity attacks have the same cost, the two metrics coincide. When data availability attacks have a lower cost than data integrity attacks, we show that a combined data attack could be executed with less attack resources compared to pure data integrity attacks. Furthermore, it is shown that combined data attacks would bypass integrity-focused mitigation schemes. These conclusions are supported by the results obtained on a power system model with and without a communication model with single or multi-path routing.