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Filters: Keyword is bi-level optimization problem  [Clear All Filters]
2018-04-04
Liang, J., Sankar, L., Kosut, O..  2017.  Vulnerability analysis and consequences of false data injection attack on power system state estimation. 2017 IEEE Power Energy Society General Meeting. :1–1.
An unobservable false data injection (FDI) attack on AC state estimation (SE) is introduced and its consequences on the physical system are studied. With a focus on understanding the physical consequences of FDI attacks, a bi-level optimization problem is introduced whose objective is to maximize the physical line flows subsequent to an FDI attack on DC SE. The maximization is subject to constraints on both attacker resources (size of attack) and attack detection (limiting load shifts) as well as those required by DC optimal power flow (OPF) following SE. The resulting attacks are tested on a more realistic non-linear system model using AC state estimation and ACOPF, and it is shown that, with an appropriately chosen sub-network, the attacker can overload transmission lines with moderate shifts of load.
2017-11-27
Chu, Z., Zhang, J., Kosut, O., Sankar, L..  2016.  Evaluating power system vulnerability to false data injection attacks via scalable optimization. 2016 IEEE International Conference on Smart Grid Communications (SmartGridComm). :260–265.

Physical consequences to power systems of false data injection cyber-attacks are considered. Prior work has shown that the worst-case consequences of such an attack can be determined using a bi-level optimization problem, wherein an attack is chosen to maximize the physical power flow on a target line subsequent to re-dispatch. This problem can be solved as a mixed-integer linear program, but it is difficult to scale to large systems due to numerical challenges. Three new computationally efficient algorithms to solve this problem are presented. These algorithms provide lower and upper bounds on the system vulnerability measured as the maximum power flow subsequent to an attack. Using these techniques, vulnerability assessments are conducted for IEEE 118-bus system and Polish system with 2383 buses.