Measuring emergent social phenomena: Dynamism, polarization, and clustering as order parameters of social systems

Bibb Latané, Andrzej Nowak, James H. Liu
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引用次数: 148

Abstract

We derive three system order parameters: dynamism, polarization, and clustering, to describe global states of attitude distribution and change for human social systems. Dynamism (f) captures the rate of change in a system, while polarization (Pt) refers to the increase or decrease of a minority position over time. Clustering (e) defines the spatial segregation of opinion based on system topography. These measures suggest a conception of human systems rooted in time and space that is distinct from other approaches. Their utility is illustrated through computer simulations showing that under a wide variety of circumstances, social influence models incorporating spatial distributions lead to unexpected outcomes of incomplete polarization and clustering, with alternative theories of how individuals encode information leading to quantitatively distinct results. A second set of simulations describes the intrusion of temperature, or unexplained randomness into these systems. Surprisingly, the self-organizational tendencies emerging from the iteration of simple laws of individual attitude change derived from Latané's (1981) metatheory of social impact appear to increase with moderate levels of randomness. We consider other approaches for measuring group level processes, among them network analysis-inspired indices and spatial autocorrelation, and suggest how our system order parameters could be used to predict political elections.

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测量新兴社会现象:社会系统的动态、极化和聚类有序参数
我们导出了三个系统顺序参数:动态、极化和聚类,以描述人类社会系统的态度分布和变化的全局状态。动态(f)捕获系统的变化速率,而极化(Pt)指的是随着时间的推移少数位置的增加或减少。聚类(e)定义基于系统地形的意见空间隔离。这些措施提出了一种扎根于时间和空间的人类系统概念,与其他方法不同。计算机模拟表明,在各种各样的情况下,包含空间分布的社会影响模型会导致不完全极化和聚类的意外结果,而个体如何编码信息的替代理论会导致定量不同的结果。第二组模拟描述了温度或无法解释的随机性对这些系统的入侵。令人惊讶的是,从latan(1981)社会影响元理论中得出的个人态度变化的简单规律的迭代中出现的自组织倾向似乎随着适度的随机性水平而增加。我们考虑了测量群体水平过程的其他方法,其中包括网络分析启发的指数和空间自相关,并建议如何使用我们的系统顺序参数来预测政治选举。
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