论文信息 - Designs to account for trust in social network-based sybil defenses

Designs to account for trust in social network-based sybil defenses

Social network-based Sybil defenses exploit the trust exhibited in social graphs to detect Sybil nodes that disrupt an algorithmic property (i.e., the fast mixing) in these graphs. The performance of these defenses depends on the quality of the algorithmic property and assuming a strong trust model in the underlying graph. While it is natural to think of trust value associated with the social graphs, Sybil defenses have used the social graphs without this consideration. In this paper we study paramagnetic designs to tune the performance of Sybil defenses by accounting for trust in social graphs and modeling the trust as modified random walks. Our designs are motivated by the observed relationship between the algorithmic property required for the defenses to perform well and a hypothesized trust value in the underlying graphs.

Aziz Mohaisen | Nicholas Hopper | Yongdae Kim

[1] Chandra Prakash,et al. SybilInfer: Detecting Sybil Nodes using Social Networks , 2011 .

[2] Krishna P. Gummadi,et al. An analysis of social network-based Sybil defenses , 2010, SIGCOMM 2010.

[3] Feng Xiao,et al. SybilLimit: A Near-Optimal Social Network Defense Against Sybil Attacks , 2010, IEEE/ACM Trans. Netw..

[4] Jon M. Kleinberg,et al. Feedback effects between similarity and social influence in online communities , 2008, KDD.

[5] Lakshminarayanan Subramanian,et al. Sybil-Resilient Online Content Voting , 2009, NSDI.

[6] Jure Leskovec,et al. Statistical properties of community structure in large social and information networks , 2008, WWW.

[7] Michael Kaminsky,et al. SybilGuard: defending against sybil attacks via social networks , 2006, SIGCOMM.

[8] Ben Y. Zhao,et al. User interactions in social networks and their implications , 2009, EuroSys '09.

[9] Alistair Sinclair,et al. Improved Bounds for Mixing Rates of Markov Chains and Multicommodity Flow , 1992, Combinatorics, Probability and Computing.

[10] M. Frans Kaashoek,et al. Whanau: A Sybil-proof Distributed Hash Table , 2010, NSDI.

[11] Aziz Mohaisen,et al. Measuring the mixing time of social graphs , 2010, IMC '10.