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@misc{62866,
author = {Husák, Martin},
booktitle = {ARES 2024: The 19th International Conference on Availability, Reliability and Security},
keywords = {cybersecurity;knowledge graph;decision support;situational awareness},
language = {eng},
title = {Theory and Practice of Cybersecurity Knowledge Graphs and Further Steps},
url = {https://www.ares-conference.eu/persons/martin-hus%C3%A1k},
year = {2024}
}
TY - SLIDE
ID - 62866
AU - Husák, Martin
PY - 2024
TI - Theory and Practice of Cybersecurity Knowledge Graphs and Further Steps
KW - cybersecurity;knowledge graph;decision support;situational awareness
UR - https://www.ares-conference.eu/persons/martin-hus%C3%A1k
N2 - The keynote surveys the growing adoption of knowledge graphs in cybersecurity and explores their potential in cybersecurity research and practice. By structuring and interlinking vast amounts of cybersecurity data, knowledge graphs offer increasing capabilities for incident response and cyber situational awareness. They enable a holistic view of the protected cyber infrastructures and threat landscapes, facilitating advanced analytics, automated reasoning, vulnerability management, and attack mitigation. We expect the cybersecurity knowledge graphs to assist incident handlers in day-to-day cybersecurity operations as well as strategic network security management. We may see emerging tools for decision support based on knowledge graphs that will leverage continuous data collection. A knowledge graph filled with the right data at the right time can significantly reduce the workload of incident handlers. We may even see rapid changes in incident handling tools and workflows leveraging the knowledge graphs, especially when combined with emerging technologies of generative AI and large language models that will facilitate interactions with the knowledge bases or generate reports of security situations. However, the implementation of cybersecurity knowledge graphs is challenging. Ensuring the quality of the underlying data is a serious concern for researchers and practitioners. Only accurate, complete, and updated data can ensure the reliability of the knowledge graph, leading to good insights and decisions. Additionally, the dynamic nature of cyber threats necessitates continuous data updates and rigorous validation processes.
ER -
HUSÁK, Martin. Theory and Practice of Cybersecurity Knowledge Graphs and Further Steps. In \textit{ARES 2024: The 19th International Conference on Availability, Reliability and Security}. 2024.
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