Achieving Efficient and Privacy-Preserving (,)-Core Query over Bipartite Graphs in Cloud

Abstract

Bipartite graphs have been widely adopted in applications such as e-healthcare thanks to their ability to model various real-world relationships. Meanwhile, (,)-core query services over bipartite graphs are recognized as a promising approach for finding communities, i.e., closely related sets of vertices in a bipartite graph. As the bipartite graph grows, service providers tend to outsource the services to the cloud. However, there are privacy concerns related to the dataset, queries, and results. Although many schemes have been proposed for privacy-preserving graph analysis, they cannot be directly adopted to handle accurate (,)-core queries. Aiming at the challenges, under the two-server setting, this paper constructs two privacy-preserving schemes with different security levels to handle (,)-core queries. In the proposed schemes, a graph is represented as an index containing two tables and further encrypted by a symmetric homomorphic encryption scheme, and then the servers securely traverse the index. Detailed security analysis shows that both schemes can achieve access pattern privacy, while the security-enhanced one can further protect the structure of the query requests and results. In addition, extensive performance evaluations are conducted to indicate the efficiency of our proposed schemes.