Behaviours across terrorist groups differ based on a variety of factors, such as groups' resources or objectives. We here show that organizations can also be distinguished by network representations of their operations. We provide evidence in this direction in the frame of a computational methodology organized in two steps, exploiting data on attacks plotted by Al Shabaab, Boko Haram, the Islamic State and the Taliban in the 2013-2018 period. First, we present textsf{LabeledSparseStruct}, a graph embedding approach, to predict the group associated with each operational meta-graph. Second, we introduce textsf{SparseStructExplanation}, an algorithmic explainer based on textsf{LabeledSparseStruct}, that disentangles characterizing features for each organization, enhancing interpretability at the dyadic level. We demonstrate that groups can be discriminated according to the structure and topology of their operational meta-graphs, and that each organization is characterized by the recurrence of specific dyadic interactions among event features.

The geometrical shapes of violence: Predicting and explaining terrorist operations through graph embeddings / Campedelli, G. M.; Layne, J.; Herzoff, J.; Serra, E.. - In: JOURNAL OF COMPLEX NETWORKS. - ISSN 2051-1310. - 10:2(2022). [10.1093/comnet/cnac008]

The geometrical shapes of violence: Predicting and explaining terrorist operations through graph embeddings

Campedelli G. M.;
2022-01-01

Abstract

Behaviours across terrorist groups differ based on a variety of factors, such as groups' resources or objectives. We here show that organizations can also be distinguished by network representations of their operations. We provide evidence in this direction in the frame of a computational methodology organized in two steps, exploiting data on attacks plotted by Al Shabaab, Boko Haram, the Islamic State and the Taliban in the 2013-2018 period. First, we present textsf{LabeledSparseStruct}, a graph embedding approach, to predict the group associated with each operational meta-graph. Second, we introduce textsf{SparseStructExplanation}, an algorithmic explainer based on textsf{LabeledSparseStruct}, that disentangles characterizing features for each organization, enhancing interpretability at the dyadic level. We demonstrate that groups can be discriminated according to the structure and topology of their operational meta-graphs, and that each organization is characterized by the recurrence of specific dyadic interactions among event features.
2022
2
Campedelli, G. M.; Layne, J.; Herzoff, J.; Serra, E.
The geometrical shapes of violence: Predicting and explaining terrorist operations through graph embeddings / Campedelli, G. M.; Layne, J.; Herzoff, J.; Serra, E.. - In: JOURNAL OF COMPLEX NETWORKS. - ISSN 2051-1310. - 10:2(2022). [10.1093/comnet/cnac008]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/343631
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