Paper ID: 2306.08929
On the resilience of Collaborative Learning-based Recommender Systems Against Community Detection Attack
Yacine Belal, Sonia Ben Mokhtar, Mohamed Maouche, Anthony Simonet-Boulogne
Collaborative-learning-based recommender systems emerged following the success of collaborative learning techniques such as Federated Learning (FL) and Gossip Learning (GL). In these systems, users participate in the training of a recommender system while maintaining their history of consumed items on their devices. While these solutions seemed appealing for preserving the privacy of the participants at first glance, recent studies have revealed that collaborative learning can be vulnerable to various privacy attacks. In this paper, we study the resilience of collaborative learning-based recommender systems against a novel privacy attack called Community Detection Attack (CDA). This attack enables an adversary to identify community members based on a chosen set of items (eg., identifying users interested in specific points-of-interest). Through experiments on three real recommendation datasets using two state-of-the-art recommendation models, we evaluate the sensitivity of an FL-based recommender system as well as two flavors of Gossip Learning-based recommender systems to CDA. The results show that across all models and datasets, the FL setting is more vulnerable to CDA compared to Gossip settings. Furthermore, we assess two off-the-shelf mitigation strategies, namely differential privacy (DP) and a \emph{Share less} policy, which consists of sharing a subset of less sensitive model parameters. The findings indicate a more favorable privacy-utility trade-off for the \emph{Share less} strategy, particularly in FedRecs.
Submitted: Jun 15, 2023