Paper Info
Title
Differentially private user-based collaborative filtering recommendation based on k-means clustering
Abstract
Collaborative filtering (CF) recommendation is well-known for its outstanding recommendation performance, but previous researches showed that it could cause privacy leakage for users due to k-nearest neighboring (KNN) attacks. Recently, the notion of differential privacy (DP) has been applied to privacy preservation in recommendation systems. However, as far as we know, existing differentially private CF recommendation systems degrade the recommendation performance (such as recall and precision) to an unacceptable level. In this paper, to address the performance degradation problem, we propose a differentially private user-based CF recommendation system based on k-means clustering (KDPCF). Specifically, to improve the recommendation performance, KDPCF first clusters the dataset into categories by k-means clustering and appropriately adjusts the size of the target category to which the target user belongs, so that only users in the well-sized target category are used for recommendation. Then, it selects efficiently a set of neighbors from the target category at one time by employing only one instance of exponential mechanism instead of the composition of multiple ones, and then uses a CF algorithm to recommend based on this set of neighbors. We theoretically prove that our system achieves differential privacy. Empirically, we use two public datasets to evaluate our recommendation system. The experimental results demonstrate that our system has a significant performance improvement compared to existing ones.
Year
DOI
Venue
2018
10.1016/j.eswa.2020.114366
Expert Systems with Applications
Keywords
DocType
Volume
Differential privacy,k-means clustering,Recommendation system,Collaborative filtering
Journal
168
ISSN
Citations 
PageRank 
0957-4174
1
0.40
References 
Authors
0
5
Name
Order
Citations
PageRank
zhili chen1445.88
Yu Wang210.40
Shun Zhang372.16
Hong Zhong420833.15
Lin Chen510.40