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Paper detail

Digital herders and phase transition in a voting model

In this paper, we discuss a voting model with two candidates, C_1 and C_2. We set two types of voters--herders and independents. The voting of independent voters is based on their fundamental values; on the other hand, the voting of herders is based on the number of votes. Herders always select the majority of the previous $r$ votes, which is visible to them. We call them digital herders. We can accurately calculate the distribution of votes for special cases. When r>=3, we find that a phase transition occurs at the upper limit of t, where t is the discrete time (or number of votes). As the fraction of herders increases, the model features a phase transition beyond which a state where most voters make the correct choice coexists with one where most of them are wrong. On the other hand, when r<3, there is no phase transition. In this case, the herders&#39; performance is the same as that of the independent voters. Finally, we recognize the behavior of human beings by conducting simple experiments.

preprint2011arXivOpen access
Masato HisakadoShintaro Mori
cond-mat.stat-mechSocial and Information Networksphysics.soc-ph
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Masato HisakadoShintaro Mori

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