Learning Maliciousness in Cybersecurity Graphs

Learning Maliciousness in Cybersecurity Graphs

Statistical relational learning is concerned with inferring patterns from data explicitly modeled as graphs. In this work, we present an approach to learning latent topological and attribute features of multi-relational property graphs in settings where a fraction of node attributes are missing. Thi...

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Veröffentlicht in:International journal of cyber-security and digital forensics 2017-09, Vol.6 (3), p.121-125
Hauptverfasser: Walsh, Connor, Gottlieb, Sam, Rangamani, Akshay, Maida, Liz
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Data security
Information visualization
Internet security
Machine learning
Malware
Methods
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Zusammenfassung:Statistical relational learning is concerned with inferring patterns from data explicitly modeled as graphs. In this work, we present an approach to learning latent topological and attribute features of multi-relational property graphs in settings where a fraction of node attributes are missing. This work draws upon prior work based on tensor factorization. We demonstrate how learned latent embeddings can be used to approximate the missing attributes. The methods explored are applied to the problem of detecting malicious entities in a novel cybersecurity ontology in which emails are explicitly modeled as graphs. KEYWORDS Cybersecurity, data visualization, graph theory, malicious code, malware, machine learning
ISSN:2305-0012
2305-0012
DOI:10.17781/P002277