Applying physics of gels to help understand formation of terrorist groups

August 1, 2018 by Bob Yirka, report
Extremism in the offing. Depiction of connected groups among pro-ISIS users of the Russian VKontakte social network, captured in January 2015. The snapshot depicts the network a few days after the emergence of a pattern that indicated imminent, large-scale group formation, as identified by a new theoretical analysis. Clusters shown in red were later flagged by system moderators as potentially dangerous and shut down. Credit: P. Manrique & M. Zheng/Univ. of Miami, via Physics

A team of researchers from the University of Miami and George Washington University has developed a model to simulate terrorist group development using the physics surrounding the behavior of gels. In their paper published in the journal Physical Review Letters, the group describes manipulating physics theories to make them work in a simulation they created. They also report on how well the simulation performed when they compared it to the growth of a real-life terrorist group.

Modern technology has allowed smaller groups to exert a bigger influence on the world around them using aggressive tactics. The internet, for example, allows individuals from around the world to converge, interact and if they so desire, form groups capable of carrying out terrorist activities. Sadly, modern law enforcement groups have found it difficult to identify and stop such groups before they carry out these attacks. The researchers with this new effort insist part of the problem is in the "lone wolf" approach that is so often used in such efforts. They suggest a better way might be to note how milk curdles and to use models based on it.

The researchers note that internet formation quite often resembles gel formation in some ways—the way milk curdles, for example. Individuals meet and form a pair. Pairs meet others and form clusters. Clusters grow in size until at some point, a group emerges. They further note that gel formation has been studied and math has been developed to describe and predict such behaviors. This inspired them to apply such models to predict the growth of terrorist groups.

The researchers noted that one difference between human group formation and gel formation is that gel formation involves interactions between identical elements. They got around that problem by creating elements with a characteristic that could be represented by a number between 0 and 1. Interactions between elements that randomly came into contact with one another were then based on matching characteristics.

The researchers report that the showed terrorist cell groups forming, and more importantly, the point at which they jelled, allowing them to act. This jelling point, they discovered, followed a 5/2 . They further report that when they ran their simulation using data from a Russian internet site regarding formation of an ISIS group, they found that it reliably predicted the jelling point. They suggest that such tools might be useful to in the coming years.

Explore further: New particle formation found to occur in heavily polluted air

More information: Pedro D. Manrique et al. Generalized Gelation Theory Describes Onset of Online Extremist Support, Physical Review Letters (2018). DOI: 10.1103/PhysRevLett.121.048301

We introduce a generalized form of gelation theory that incorporates individual heterogeneity and show that it can explain the asynchronous, sudden appearance and growth of online extremist groups supporting ISIS (so-called Islamic State) that emerged globally post-2014. The theory predicts how heterogeneity impacts their onset times and growth profiles and suggests that online extremist groups present a broad distribution of heterogeneity-dependent aggregation mechanisms centered around homophily. The good agreement between the theory and empirical data suggests that existing strategies aiming to defeat online extremism under the assumption that it is driven by a few "bad apples" are misguided. More generally, this generalized theory should apply to a range of real-world systems featuring aggregation among heterogeneous objects.

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not rated yet Aug 01, 2018
1 / 5 (2) Aug 01, 2018
This can be applied to the formation of any group. I doubt this will ever have a practical application. Can't extrapolate to a sand nigger's thought process specifically.
not rated yet Aug 07, 2018
Try locating oil wells and transport in Africa. These shall define your power centers!

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