English

Fuzzy quantitative attack tree analysis

Cryptography and Security 2024-01-24 v1

Abstract

Attack trees are important for security, as they help to identify weaknesses and vulnerabilities in a system. Quantitative attack tree analysis supports a number security metrics, which formulate important KPIs such as the shortest, most likely and cheapest attacks. A key bottleneck in quantitative analysis is that the values are usually not known exactly, due to insufficient data and/or lack of knowledge. Fuzzy logic is a prominent framework to handle such uncertain values, with applications in numerous domains. While several studies proposed fuzzy approaches to attack tree analysis, none of them provided a firm definition of fuzzy metric values or generic algorithms for computation of fuzzy metrics. In this work, we define a generic formulation for fuzzy metric values that applies to most quantitative metrics. The resulting metric value is a fuzzy number obtained by following Zadeh's extension principle, obtained when we equip the basis attack steps, i.e., the leaves of the attack trees, with fuzzy numbers. In addition, we prove a modular decomposition theorem that yields a bottom-up algorithm to efficiently calculate the top fuzzy metric value.

Keywords

Cite

@article{arxiv.2401.12346,
  title  = {Fuzzy quantitative attack tree analysis},
  author = {Thi Kim Nhung Dang and Milan Lopuhaä-Zwakenberg and Mariëlle Stoelinga},
  journal= {arXiv preprint arXiv:2401.12346},
  year   = {2024}
}

Comments

23 pages, 6 figures, FASE2024

R2 v1 2026-06-28T14:24:05.981Z