Community detection techniques are useful for social media platforms to discover tightly connected groups of users who share common interests. However, this functionality often comes at the expense of potentially exposing individuals to privacy breaches by inadvertently revealing their tastes or preferences. Therefore, some users may wish to preserve their anonymity and opt out of community detection for various reasons, such as affiliation with political or religious organizations, without leaving the platform. In this study, we address the challenge of community membership hiding, which involves strategically altering the structural properties of a network graph to prevent one or more nodes from being identified by a given community detection algorithm. We tackle this problem by formulating it as a constrained counterfactual graph objective, and we solve it via deep reinforcement learning. Extensive experiments demonstrate that our method outperforms existing baselines, striking the best balance between accuracy and cost.
Evading Community Detection via Counterfactual Neighborhood Search / Bernini, Andrea; Silvestri, Fabrizio; Tolomei, Gabriele. - (2024), pp. 131-140. (Intervento presentato al convegno ACM International Conference on Knowledge Discovery and Data Mining tenutosi a Barcelona; Spain) [10.1145/3637528.3671896].
Evading Community Detection via Counterfactual Neighborhood Search
Andrea Bernini
;Fabrizio Silvestri
;Gabriele Tolomei
2024
Abstract
Community detection techniques are useful for social media platforms to discover tightly connected groups of users who share common interests. However, this functionality often comes at the expense of potentially exposing individuals to privacy breaches by inadvertently revealing their tastes or preferences. Therefore, some users may wish to preserve their anonymity and opt out of community detection for various reasons, such as affiliation with political or religious organizations, without leaving the platform. In this study, we address the challenge of community membership hiding, which involves strategically altering the structural properties of a network graph to prevent one or more nodes from being identified by a given community detection algorithm. We tackle this problem by formulating it as a constrained counterfactual graph objective, and we solve it via deep reinforcement learning. Extensive experiments demonstrate that our method outperforms existing baselines, striking the best balance between accuracy and cost.| File | Dimensione | Formato | |
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Bernini_Evading_2024.pdf
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Note: https://doi.org/10.1145/3637528.367189
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