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The Emergence and Stability of Groups in Social Networks
Affiliation:1. Chair of Social Networks, ETH Zürich, Switzerland;2. The Institute for Analytical Sociology, Linköping University, Sweden;3. Centre for Social Sciences, Computational Social Science – Research Centre for Educational and Network Studies (TK CSS-RECENS), Budapest, Hungary;4. Department of Social Statistics and Mitchell Centre for Social Network Analysis, University of Manchester, United Kingdom;1. Macquarie University;2. University of Kentucky;3. University of Trento
Abstract:
An important puzzle in social network research is to explain how macro-level structures emerge from micro-level network processes. Explaining the emergence and stability of structural groups in social networks is particularly difficult for two reasons. First, because groups are characterized both by high connectedness within (group cohesion) and lack of connectedness between them (group boundaries). Second, because a large number of theoretical micro-level network processes contribute to their emergence. We argue that traditional social network theories that are concerned with the evolution of positive relations (forces of attraction) are not sufficient to explain the emergence of groups because they lack mechanisms explaining the emergence of group boundaries. Models that additionally account for the evolution of negative ties (forces of repulsion) may be better suited to explain the emergence and stability of groups. We build a theoretical model and illustrate its usefulness by fitting stochastic actor-oriented models (SAOMs) to empirical data of co-evolving networks of friendship and dislike among 479 secondary-school students. The SAOMs include a number of newly developed effects expressing the co-evolution between positive and negative ties. We then simulate networks from the estimated models to explore the micro-macro link. We find that a model that considers forces of attraction and repulsion simultaneously is better at explaining groups in social networks. In the long run, however, the empirically informed simulations generate networks that are too stylized to be realistic, raising further questions about model degeneracy and time heterogeneity of group processes.
Keywords:Definition of a group  Positive and negative ties  Structural balance  Stochastic actor-oriented models (SAOMs)  Agent-based models
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