Informational Epidemics and Synchronized Viral Contagion in Social Networks Dmitry Paranyushkin NODUS LABS 3 Am Flutgraben, 12435, Berlin, Germany 11-119 Tchelyabinskaya St., 105568, Moscow, Russia www.noduslabs.com info@noduslabs.com Berlin, January 2012 Abstract: In this research we look into the network structures that are the most conducive for informational epidemics and synchronized viral contagion in the context of social networks. Specifically we are interested in the structures that enable informational cascades (simultaneous contagion of multiple nodes) as well as a sustained endemic level of epidemics within the communities. We find that the most efficient communication strategy entails increasing the connectivity of the network, randomizing its structure, and addressing the most densely connected groups first, ensuring that the message is propagated further using the supra-network between these groups and the lynchpins that connect different communities together. We also look into the necessary properties of a message for it to go viral. We show how our findings can be practically applied in the context of social network promotion and organizing live events. We also demonstrate how this knowledge can be used by communities to immunize themselves against unwanted ideological communication while still maintaining a degree of openness that allows them to remain innovative.
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