The dynamic of information-driven coordination phenomena: a transfer entropy analysis
July 22, 2015 Β· Declared Dead Β· π Science Advances
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Authors
Javier Borge-Holthoefer, Nicola Perra, Bruno GonΓ§alves, Sandra GonzΓ‘lez-BailΓ³n, Alex Arenas, Yamir Moreno, Alessandro Vespignani
arXiv ID
1507.06106
Category
physics.soc-ph
Cross-listed
cs.SI,
nlin.AO,
physics.data-an
Citations
102
Venue
Science Advances
Last Checked
4 months ago
Abstract
Data from social media are providing unprecedented opportunities to investigate the processes that rule the dynamics of collective social phenomena. Here, we consider an information theoretical approach to define and measure the temporal and structural signatures typical of collective social events as they arise and gain prominence. We use the symbolic transfer entropy analysis of micro-blogging time series to extract directed networks of influence among geolocalized sub-units in social systems. This methodology captures the emergence of system-level dynamics close to the onset of socially relevant collective phenomena. The framework is validated against a detailed empirical analysis of five case studies. In particular, we identify a change in the characteristic time-scale of the information transfer that flags the onset of information-driven collective phenomena. Furthermore, our approach identifies an order-disorder transition in the directed network of influence between social sub-units. In the absence of a clear exogenous driving, social collective phenomena can be represented as endogenously-driven structural transitions of the information transfer network. This study provides results that can help define models and predictive algorithms for the analysis of societal events based on open source data.
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