A complex networks approach to find latent clusters of terrorist groups

Campedelli, Gian Maria; Cruickshank, Iain J.; Carley, Kathleen M.

doi:10.1007/s41109-019-0184-6

Cited by 23 publications

(20 citation statements)

References 61 publications

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“…An additional study that explores 28 years of bill-voting in Brazil shows that the dynamics of co-occurrence networks of similar-voting congressmen reveal patterns that allow for the identification of convicted corrupt politicians and also, for the possibility of predicting or identifying other possible corrupt individuals within the network (Colliri & Zhao, 2019). Noteworthy, the identification of latent criminal groups (Campedelli, Cruickshank & Carley, 2019) and the effective dismantling of their organizational structure (Wandelt, Sun, Feng, Zanin & Havlin, 2018) are relevant and non-trivial subjects in criminal investigations and law enforcement, since empirical evidence has shown that the dismantling process might potentially make these criminal organizations stronger (Duijn, Kashirin & Sloot, 2014). In addition, when it comes to fighting corruption the goal is clear: one not only is looking to describe it post factum, but to predict it (Rumi, Deng & Salim, 2018;Alves, Ribeiro & Rodrigues, 2018;López-Iturriaga & Sanz, 2018;Colonnelli et al, 2019;Colliri & Zhao, 2019).…”

Section: Complex Networkmentioning

confidence: 99%

Corruption and complexity: a scientific framework for the analysis of corruption networks

Luna-Pla

Nicolás-Carlock

2020

Appl Netw Sci

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According to United Nations, corruption is a systemic and adaptive phenomenon that requires comprehensive and multidisciplinary approaches for its effective prevention and combat. However, traditional approaches lack the analytical tools to handle the structural and dynamical aspects that characterize modern social, political and technological systems where corruption takes place. On this matter, complex systems science has emerged as a comprehensive framework to study highly adaptive phenomena from natural to socio-technical settings. Thus, in this article we present an empirical approach to model corruption using the concepts and tools of complexity science, mainly, complex networks science. Under this framework, we describe a major corruption scandal that took place in Mexico involving a network of hundreds of shell companies used to embezzle billions of dollars. We describe the structure and dynamics of this corporate network using available information related to their personnel and the date of the companies' creation. We measured some global parameters, such as density, diameter, average path length, and average degree in order to provide systematic evidence on which corporate characteristics are likely to signal corruption. Moreover, this analysis also provides an objective perspective of the systemic nature of events where companies are abused for corrupt purposes, and the shortcomings of reductionistic analyses. Major corruption scandals comprise both legal and illegal deeds, in addition to several parties acting simultaneously over extended time periods. As a whole, such scandals pose enormous challenges for the study of law and put the legal design of administrative and criminal controls to the test.

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Section: Complex Networkmentioning

confidence: 99%

Corruption and complexity: a scientific framework for the analysis of corruption networks

Luna-Pla

Nicolás-Carlock

2020

Appl Netw Sci

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“…The methods for collectively clustering the modal graphs are often either diffusion processes (see [17], [19], [20] for examples) or tensor decompositions (see [15], [21]- [24] for examples). Outside of these two main graph-based methods, there are also graph-based methods that use weighted metrics to combine graphs for clustering [25], [26] as well as weight-learning techniques in spectral paradigms to cluster the modal graphs [27] or combining graph decompositions from across modes to then cluster unimodally [16], [28]. While the graph-based methods are often considered the predominant means of multi-modal clustering its not clear how well they can do on more general types of data outside of images or social networks, where the graphs of each mode have similar properties to each other.…”

Section: Related Workmentioning

confidence: 99%

“…Since modularity is a measure of how much cluster structure is present in a graph, we are selecting graphs that maximize the cluster structure that may be present in the data. We further incorporate the changes to the original algorithm from other works, namely to use asymmetric k-NN graphs for each value of k (wherein an edge exists between two nodes, u and v, if either u ∈ kNN (v) or v ∈ kNN (u)) and the Louvain method for clustering the kNNs [25], [26], [32]. Finally, we note that the Louvain algorithm, while very fast for clustering a graph, is also a greedy, stochastic algorithm that can lead to different clustering outcomes for a graph depending on the initialization of the algorithm.…”

Section: ) Obtaining K-nearest Neighbor Graphs and Cluster Assignments For Each Modementioning

confidence: 99%

Analysis of Malware Communities Using Multi-Modal Features

Cruickshank

Carley

2020

IEEE Access

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Identifying possible threat actors from samples of malware remains an active area of research with important ramifications for cybersecruity practitioners. The unsupervised identification and characterization of malware samples has been primarily treated as an early integration, multi-modal clustering problem where all possible features derived from the samples are concatenated into one feature vector, which can then be fed into a standard unsupervised learning algorithm. In this work, we focus on characterizing malware samples into possible threat actors from both late integration and intermediate integration multi-modal data perspectives. In doing so, we propose a new algorithm, Cross-Modal Influence Clustering, for characterizing malware samples into threat actor groups. We test our proposed method along with several other multimodal clustering techniques on heterogeneous malware samples from three different threat actors. Our results indicate that our proposed method is the best method for clustering malware samples into threat actors in an unsupervised setting and that we observe consistently better results in characterizing malware samples by threat actors from intermediate or late integration multi-modal paradigms rather than an early integration one.INDEX TERMS Cybersecurity, malware, multi-modal data, network diffusion, unsupervised machine learning, multi-view data.

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“…For instance, spatial signatures of the operation (e.g. where crimes take place) may illuminate how criminal activities are developed, and across which physical and cultural structures they depend upon, among other characteristics (see, Campedelli et al 2019;Graif et al 2014).…”

Section: Multiplex Features Of Wildlife Traffickingmentioning

confidence: 99%

Multiplex networks reveal geographic constraints on illicit wildlife trafficking

et al. 2020

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Illicit wildlife trafficking poses a threat to the conservation of species and ecosystems, and represents a fundamental source of biodiversity loss, alongside climate change and large-scale land degradation. Despite the seriousness of this issue, little is known about various socio-cultural demand sources underlying trafficking networks, for example the forthright consumption of endangered species on different cultural contexts. Our study illustrates how wildlife trafficking represents a wicked problem at the intersection of criminal enforcement, cultural heritage and environmental systems management. As with similar network-based crimes, institutions are frequently ineffective at curbing wildlife trafficking, partly due to the lack of information detailing activities within illicit trading networks. To address this shortcoming, we leverage official government records documenting the illegal trade of reptiles in Colombia. As such, our study contributes to the understanding of how and why wildlife trafficking persists across robust trafficking networks, which are conduits for a broader range of black-market goods. Leveraging geo-spatial data, we construct a multiplex representation of wildlife trafficking networks, which facilitates identifying network properties that are signatures of strategic trafficker behavior. In particular, our results indicate that traffickers' actions are constrained by spatial and market customs, a result which is apparent only within an integrated multiplex representation. Characteristic levels of sub-network coupling further indicate that traffickers strategically leverage knowledge of the entire system. We argue that this multiplex representation is essential for prioritizing crime enforcement strategies aimed at disrupting robust trade networks, thereby enhancing the effectiveness and resources allocation of institutions charged with curbing illicit trafficking. We develop a generalizable model of multiplex criminal trade networks suitable for communicating with policy makers and practitioners, thereby facilitating rapid translation into public policy and environmental conservation efforts.

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A complex networks approach to find latent clusters of terrorist groups

Cited by 23 publications

References 61 publications

Corruption and complexity: a scientific framework for the analysis of corruption networks

Corruption and complexity: a scientific framework for the analysis of corruption networks

Analysis of Malware Communities Using Multi-Modal Features

Multiplex networks reveal geographic constraints on illicit wildlife trafficking

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