中文

Fuzzy k-anonymity in complex networks

社会与信息网络 2026-05-13 v1

摘要

With the introduction of large-scale network data, including population-scale social networks, techniques for privacy-aware sharing of network data become increasingly important. While existing kk-anonymity approaches can model different attacker scenarios, they typically assume that attacker knowledge exactly matches the published network structure. We argue that exact knowledge is often unrealistic and introduce ϕ\phi-kk-anonymity, a fuzzy variant of kk-anonymity in which parameter ϕ\phi captures the level of uncertainty in attacker knowledge. Across a benchmark of 3939 real-world networks, a realistic level of uncertainty (ϕ=5%\phi=5\%) renders, on average, 64%64\% of previously unique nodes anonymous. To further enhance anonymity, we apply anonymization algorithms under a 5%5\% edge modification budget. While full anonymization is often unattainable under exact kk-anonymity, with low uncertainty (ϕ=10%\phi=10\%) our newly proposed Greedy algorithm anonymizes over 99%99\% of the nodes. Uncertainty also enables effective anonymization in otherwise difficult to anonymize dense synthetic graphs. Additionally, data utility in terms of structural properties and performance on network analysis tasks is well preserved, with most metrics changing less than 5%5\%. Overall, our findings suggest that modest uncertainty assumptions yield high levels of anonymity and utility, motivating further research on uncertainty-aware privacy guarantees for network data.

关键词

引用

@article{arxiv.2605.12062,
  title  = {Fuzzy k-anonymity in complex networks},
  author = {Rachel G. de Jong and Mark P. J. van der Loo and Frank W. Takes},
  journal= {arXiv preprint arXiv:2605.12062},
  year   = {2026}
}