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On-line Access: 2024-08-27

Received: 2023-10-17

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Journal of Zhejiang University SCIENCE A 2008 Vol.9 No.10 P.1331-1335

http://doi.org/10.1631/jzus.A0820344


Model for cascading failures in congested Internet


Author(s):  Jian WANG, Yan-heng LIU, Jian-qi ZHU, Yu JIAO

Affiliation(s):  Key Lab of Symbolic Computation and Knowledge Engineering of Ministry of Education, College of Computer Science and Technology, Jilin University, Changchun 130012, China

Corresponding email(s):   wangjian591@gmail.com, lyh_lb_lk@yahoo.com.cn

Key Words:  Complex network, Cascading failures, Congestion effects, Propagation model


Jian WANG, Yan-heng LIU, Jian-qi ZHU, Yu JIAO. Model for cascading failures in congested Internet[J]. Journal of Zhejiang University Science A, 2008, 9(10): 1331-1335.

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Abstract: 
cascading failures often occur in congested networks such as the Internet. A cascading failure can be described as a three-phase process: generation, diffusion, and dissipation of the congestion. In this account, we present a function that represents the extent of congestion on a given node. This approach is different from existing functions based on betweenness centrality. By introducing the concept of ‘delay time’, we designate an intergradation between permanent removal and nonremoval. We also construct an evaluation function of network efficiency, based on congestion, which measures the damage caused by cascading failures. Finally, we investigate the effects of network structure and size, delay time, processing ability and packet generation speed on congestion propagation. Also, we uncover the relationship between the cascade dynamics and some properties of the network such as structure and size.

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

Reference

[1] Albert, R., Jeong, H., Barabási, A.L., 2000. The Internet’s Achilles’ heel: error and attack tolerance of complex networks. Nature, 406(6794):378-382.

[2] Ash, J., Newth, D., 2007. Optimizing complex networks for resilience against cascading failure. Phys. A, 380:673-383.

[3] Barabási, A.L., Albert, R., 1999. Emergence of scaling in random networks. Science, 286(5439):509-511.

[4] Bollobás, B., 1985. Random Graphs. Academic Press, London, UK.

[5] Chang, D.B., Young, C.S., 2005. Infection dynamics on the Internet. Comput. Secur., 24(4):280-286.

[6] Cholvi, V., 2006. Dissemination of information in complex networks with congestion. Phys. A, 366:571-577.

[7] Galstyan, A., Cohen, P., 2007. Cascading dynamics in modular networks. Phys. Rev. E, 75:036109.

[8] Motter, A.E., Lai, Y.C., 2002. Cascade-based attacks on complex networks. Phys. Rev. E, 66(6):065102.

[9] Sharma, S., Srivastava, L., 2008. Prediction of transmission line overloading using intelligent technique. Appl. Soft Comput., 8(1):626-633.

[10] Shen, B., Gao, Z.Y., 2008. Dynamical properties of transportation on complex networks. Phys. A, 387(5-6):1352-1360.

[11] Wang, W.X., Chen, G.R., 2008. Universal robustness characteristic of weighted networks against cascading failure. Phys. Rev. E, 77(2):026101.

[12] Wu, J.J., Gao, Z.Y., Sun, H.J., 2007a. Effects of the cascading failures on scale-free traffic networks. Phys. A, 378(2):505-511.

[13] Wu, J.J., Sun, H.J., Gao, Z.Y., 2007b. Cascading failures on weighted urban traffic equilibrium network. Phys. A, 386(1):407-413.

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