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Energy Systems

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01-05-2016 | Original Paper

Addressing vulnerability to cascading failure against intelligent adversaries in power networks

Authors: Sinan Tas, Vicki M. Bier

Published in: Energy Systems | Issue 2/2016

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Abstract

The blackout of August 14, 2003, showed that electric power grids are vulnerable to cascading failure. Since then, numerous methods of vulnerability analysis have been developed to help the owners and operators of power networks and other infrastructure systems protect them against possible catastrophic events (including attacks by intelligent adversaries). With cascading failures, even small attacks can have a large impact. Cascading failures have historically been considered a major unsolved problem for complex networks such as electricity systems, but recent developments in probabilistic analysis of cascading failure are making it possible to take cascading failures into account in methods of vulnerability assessment. In particular, our game-theoretic model can be used to analyze how an intelligent adversary might seek to take advantage of a network’s vulnerability to cascading failure. Specifically, our model provides a tool to simulate power flows within the network, and analyze how attackers can use their knowledge of cascading failure. Our model can also be used to compare the effectiveness of different types of investments to make systems more resilient, including both hardening components and also making the system less vulnerable to cascading failure (e.g., by increasing the capacities of transmission lines, or adding new lines).

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Albert, R., Albert, I., Nakarado, G.L.: Structural vulnerability of the North American power grid. Phys. Review E. 69(2), 025103 (2004)CrossRef

Amin, M.: North America’s electricity infrastructure: are we ready for more perfect storms. IEEE Secur. Priv. 1(5), 19–25 (2003)CrossRef

Apostolakis, G.E., Lemon, D.M.: A screening methodology for the identification and ranking of infrastructure vulnerabilities due to terrorism. Risk Anal. 25(2), 361–376 (2005)CrossRef

Bienstock, D., Mattia, S.: Using mixed-integer programming to solve power grid blackout problems. Discret. Optim. 4(1), 115–141 (2007)MathSciNetCrossRefMATH

Bier, V.M., Gratz, E.R., Haphuriwat, N.J., Magua, W., Wierzbicki, K.R.: Methodology for identifying near-optimal interdiction strategies for a power network transmission system. Reliab. Eng. System Saf. 92(9), 315–323 (2007)

Brown, R.V.: Logic and motivation in risk research: a nuclear waste test case. Risk Anal. 25(1), 125–140 (2005)CrossRef

Carreras, B.A., Lynch, V.E., Dobson, I., Newman, D.E.: Critical points and transitions in an electric power transmission model for cascading failure blackouts. Chaos 12, 985–994 (2002)MathSciNetCrossRefMATH

Carreras, B.A., Lynch, V.E., Dobson, I., Newman, D.E.: Complex dynamics of blackouts in power transmission systems. Chaos 14, 643 (2004)CrossRef

Carreras, B.A., Newman, D. E., Dobson, I., Degala, N. S.: Validating OPA with WECC data. In: 46th Hawaii International Conference on System Sciences, Hawaii (2013)

10.

Crucitti, P., Latora, V., et al.: Model for cascading failures in complex networks. Phys. Review E. 69(4), 045104 (2004)CrossRef

11.

Dobson, I., Carreras, B., Lynch, V., Newman, D.: An initial model for complex dynamics in electric power system blackouts. IEEE Computer Society (2001)

12.

Dobson, I., Carreras, B.A., Lynch, V.E., Newman, D.E.: Complex systems analysis of series of blackouts: cascading failure, critical points, and self-organization. Chaos 17, 026103 (2007)CrossRefMATH

13.

Donde, V., Lopez, V., Lesieutre, B., Pinar, A., Yang, C., Meza, J.: Identification of severe multiple contingencies in electric power networks. IEEE, pp. 59–66 (2005)

14.

Dueñas-Osorio, L., Vemuru, S.M.: Cascading failures in complex infrastructure systems. Struct. Saf. 31(2), 157–167 (2009)CrossRef

15.

Ezell, B.C., Bennett, S.P., von Winderfeldt, D., Sokolowski, J., Collins, A.J.: Probabilistic risk analysis and terrorism risk. Risk Anal. 30(4), 575–589 (2010)CrossRef

16.

Ghansah, I.: Smart grid cyber security potential threats. Vulnerabilities and risks. California Energy Commission, PIER Energy-Related Environmental Research Program (2009)

17.

Hines, P., Cotilla-Sanchez, E., Blumsack, S.: Do topological models provide good information about electricity infrastructure vulnerability? Chaos 20, 033122 (2010)CrossRef

18.

IEEE: The IEEE reliability test system–1996. IEEE Transmission Power Systems 14, pp. 1010–1020 (1999)

19.

Kinney, R., Crucitti, P., Albert, R., Latora, V.: Modeling cascading failures in the North American power grid. Eur. Phys. J. B. Condens. Matter Complex Systems 46(1), 101–107 (2005)CrossRef

20.

Lesieutre, B.C., Roy, S., Donde, V., Pinar, A.: Power system extreme event screening using graph partitioning. IEEE, pp. 503–510 (2006)

21.

Lewis, T.G.: Network science: theory and applications. Wiley Publishing, Hoboken (2009)CrossRefMATH

22.

Newman, D.E., Carreras, B.A., Lynch, V.E., Dobson, I.: Exploring complex systems aspects of blackout risk and mitigation. IEEE Trans. Reliab. 60(1), 134–143 (2011)CrossRef

23.

Salmeron, J., Wood, K., Baldick, R.: Analysis of electric grid security under terrorist threat. IEEE Trans. Power Systems 19(2), 905–912 (2004)CrossRef

24.

Schafer, B.W., Bajpai, P.: Stability degradation and redundancy in damaged structures. In: Annual Technical Session and Meeting for Stability Research Council, Long Beach, California (2004)

25.

Talukdar, S.N., Apt, J., Ilic, M., Lave, L.B., Morgan, M.G.: Cascading failures: survival versus prevention. Electr. J. 16(9), 25–31 (2003)CrossRef

26.

Tas, S.: A comprehensive method for assessing the resilience of power networks in the face of an Intelligent Adversary (doctoral thesis), University of Wisconsin-Madison (2012)

27.

Yuan, W., Zhao, L., Zeng, B.: Optimal power grid protection through a defender-attacker-defender model. Power, 8(14), preprint (2013)

28.

Zhao, L., Park, K., Lai, Y.C.: Attack vulnerability of scale-free networks due to cascading breakdown. Phys. Review E 70(3), 035101 (2004)CrossRef

Title: Addressing vulnerability to cascading failure against intelligent adversaries in power networks
Authors: Sinan Tas
Vicki M. Bier
Publication date: 01-05-2016
Publisher: Springer Berlin Heidelberg
Published in: Energy Systems / Issue 2/2016
Print ISSN: 1868-3967
Electronic ISSN: 1868-3975
DOI: https://doi.org/10.1007/s12667-014-0117-5

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