Geodesic Cycle Length Distributions in Delusional and Other Social Networks

Q2 Social Sciences

Journal of Social Structure Pub Date : 2020-01-01 DOI:10.21307/joss-2020-002

A. Stivala

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引用次数: 3

Abstract

Abstract A recently published paper [Martin (2017) JoSS 18(1):1-21] investigates the structure of an unusual set of social networks, those of the alternate personalities described by a patient undergoing therapy for multiple personality disorder (now known as dissociative identity disorder). The structure of these networks is modeled using the dk-series, a sequence of nested network distributions of increasing complexity. Martin finds that the first of these networks contains a striking feature of a large “hollow ring”; a cycle with no shortcuts, so that the shortest path between any two nodes in the cycle is along the cycle (in more precise graph theory terms, this is a geodesic cycle). However, the subsequent networks have much smaller largest cycles, smaller than those expected by the models. In this work, I re-analyze these delusional social networks using exponential random graph models (ERGMs) and investigate the distribution of the lengths of geodesic cycles. I also conduct similar investigations for some other social networks, both fictional and empirical, and show that the geodesic cycle length distribution is a macro-level structure that can arise naturally from the micro-level processes modeled by the ERGM.

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妄想网络和其他社交网络中的测地周期长度分布

摘要最近发表的一篇论文[Martin（2017）JoSS 18（1）：1-21]调查了一组不寻常的社交网络的结构，即接受多重人格障碍（现在称为解离性身份障碍）治疗的患者所描述的交替人格。这些网络的结构是使用dk序列来建模的，dk序列是一个日益复杂的嵌套网络分布序列。Martin发现，这些网络中的第一个包含了一个大的“空心环”的显著特征；没有捷径的循环，因此循环中任何两个节点之间的最短路径都是沿着循环的（用更精确的图论术语来说，这是一个测地线循环）。然而，后续网络的最大周期要小得多，比模型预期的要小。在这项工作中，我使用指数随机图模型（ERGM）重新分析了这些妄想社交网络，并研究了测地循环长度的分布。我还对其他一些社交网络进行了类似的调查，包括虚构的和经验的，并表明测地循环长度分布是一个宏观层面的结构，可以从ERGM建模的微观层面过程中自然产生。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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