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Information Evolution in Social Networks

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arxiv 1402.6792 v1 pith:UHVSDWPU submitted 2014-02-27 cs.SI cs.CLphysics.soc-ph

Information Evolution in Social Networks

classification cs.SI cs.CLphysics.soc-ph
keywords informationsocialnetworksprocessevolutionimperfectmechanismmeme
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Social networks readily transmit information, albeit with less than perfect fidelity. We present a large-scale measurement of this imperfect information copying mechanism by examining the dissemination and evolution of thousands of memes, collectively replicated hundreds of millions of times in the online social network Facebook. The information undergoes an evolutionary process that exhibits several regularities. A meme's mutation rate characterizes the population distribution of its variants, in accordance with the Yule process. Variants further apart in the diffusion cascade have greater edit distance, as would be expected in an iterative, imperfect replication process. Some text sequences can confer a replicative advantage; these sequences are abundant and transfer "laterally" between different memes. Subpopulations of the social network can preferentially transmit a specific variant of a meme if the variant matches their beliefs or culture. Understanding the mechanism driving change in diffusing information has important implications for how we interpret and harness the information that reaches us through our social networks.

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