Load-induced cascading failure in interdependent network

Peng Xing-Zhao; Yao Hong; Du Jun; Wang Zhe; Ding Chao

doi:10.7498/aps.64.048901

Abstract

The study of load-induced cascading failures in interdependent networks is of great realistic significance, which can provide valuable reference for designing high robust interdependent network or improving their robustness. In this paper, we establish a cascading model for a double layer interdependent network, and study the effects of the contributions of inter-degree and intra-degree to the loads, the coupling, and the intra-node linking similarity on the cascading failure in the interdependent network. Our studies show that when the contributions of inter-degree and intra-degree to the loads attain some values, the interdependent network reaches the highest robustness against cascading failures. As a notable feature for the interdependent network that is different from an isolated network, the coupling must have a significant influence on cascading failure in the interdependent network. In order to reach higher robustness, we suggest that the disassortative coupling be used and the inter-degree be made as homogeneous as possible under condition that a larger average inter-degree is adopted. In addition, we find that it is contrary to the case of neglecting loads that when the Pearson correlation coefficient for measuring the intra-layer degree-degree relation is larger, the interdependent network is more robust against cascading failures.

Keywords:

Authors and contacts

1.
Aeronautics and Astronautics Engineering College, Air Force Engineering University, Xi'an 710038, China;
2.
Science College, Air Force Engineering University, Xi'an 710051, China
Funds: Project supported by the Natural Science Foundation of Shaanxi Province, China (Grant No. 2012JM8035).

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Cited By

[1]	Boccaletti S, Latora V, Moreno Y, Chavez M, Hwanga D U 2006 Phys. Rep. 424 175
[2]	Motter A E, Lai Y C 2002 Phys. Rev. E 66 065102
[3]	Crucitti P, Latora V, Marchiori M 2004 Phys. Rev. E 69 045104(R)
[4]	Wang J W, Rong L L 2009 Physica A 388 1289
[5]	Wang J W, Rong L L 2009 Acta Phys. Sin. 58 3714 (in Chinese) [王建伟, 荣莉莉 2009 物理学报 58 3714]
[6]	Zhang J F, Yang L X, Gao Z Y 2010 Int. J. Mod. Phys. C 21 991
[7]	Motter A E 2004 Phys. Rev. Lett. 93 098701
[8]	Zhao L, Park K, Lai Y C 2004 Phys. Rev. E 70 035101(R)
[9]	Wang J W, Rong L L, Zhang L, Zhang Z Z 2008 Physica A 387 6671
[10]	Wei D Q, Luo X S, Zhang B 2012 Physica A 391 2771
[11]	Ash J, Newth D 2007 Physica A 380 673
[12]	Li P, Wang B H, Sun H, Gao P, Zhou T 2008 Eur. Phys. J. B 62 101
[13]	Dou B L, Wang X G, Zhang S Y 2010 Physica A 389 2310
[14]	Hu K, Hu T, Tang Y 2010 Chin. Phys. B 19 080206
[15]	Buldyrev S V, Parshani R, Paul G, Stanley H E, Havlin S 2010 Nature 464 1025
[16]	Parshani R, Buldyrev S V, Havlin S 2010 Phys. Rev. Lett. 105 048701
[17]	Shao J, Buldyrev S V, Havlin S, Stanley H E 2011 Phys. Rev. E 83 036116
[18]	Huang X Q, Gao J X, Buldyrev S V, Havlin S, Stanley H E 2011 Phys. Rev. E 83 065101(R)
[19]	Buldyrev S V, Shere N W, Cwilich G A 2011 Phys. Rev. E 83 016112
[20]	Zhou D, Stanley H E, D'Agostino G, Scala A 2012 Phys. Rev. E 86 066103
[21]	Gao J X, Buldyrev S V, Stanley H E, Havlin S 2012 Nat. Phys. 8 40
[22]	Zhou D, Gao J X, Havlin S, Stanley H E 2013 Phys. Rev. E 87 052812
[23]	Shao S, Huang X Q, Stanley H E, Havlin S 2014 Phys. Rev. E 89 032812
[24]	Barabási A L, Albert R 1999 Science 286 509
[25]	Zio E, Sansavini G 2011 IEEE. Trans. Reliab. 60 94
[26]	Brummitt C D, D'Souza R M, Leicht E A 2012 PNAS 109 E680
[27]	Qiu Y Z 2013 Physica A 392 1920
[28]	Peng X Z, Yao H, Du J, Ding C, Zhang Z H 2014 Acta Phys. Sin. 63 078901 (in Chinese) [彭兴钊, 姚宏, 杜军, 丁超, 张志浩 2014 物理学报 63 078901]
[29]	Goh K I, Kahng B, Kim D 2001 Phys. Rev. Lett. 87 278701
[30]	Barthélemy M 2004 Euro. Phys. J. B 38 163
[31]	Tan F, Xia Y X, Zhang W P, Jin X Y 2013 Europhys. Lett. 102 28009
[32]	Newman M E J 2010 Networks: an Introduction (New York: Oxford University Press)

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Vol. 64, Issue 4 - 2015-02-20

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