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Privacy-Preserving Boolean Range Query with Temporal Access Control in Mobile Computing

Qiuyun Tong, Xinghua Li, Yinbin Miao, Ximeng Liu, Jian Weng, Robert H. Deng

2022IEEE Transactions on Knowledge and Data Engineering37 citationsDOI

Abstract

With increasingly popular GPS-equipped mobile devices (e.g., smartphones, tablets, laptops), massive spatio-textual data has been outsourced to cloud servers for storage and analysis such as spatial keyword search. However, existing privacy-preserving spatial keyword query schemes only support coarse-grained non-temporal access control in single-user sharing scenarios, which does not scale well in time-related scenes such as message valid period. To solve the above issues, we propose Privacy-preserving Boolean Range Query with Temporal access control in mobile computing (PBRQ-T). Specifically, we first achieve PBRQ with linear search complexity using the adapted Gray code, Bloom filter, and Katz-Sahai-Waters encryption. Then, we provide fine-grained and temporal access control in PBRQ based on the forward/backward derivation function and attribute-based encryption, where PBRQ is executed only when the spatio-textual data is accessible. Finally, an enhanced PBRQ-T (i.e., PBRQ-T+) with faster-than-linear search complexity is proposed by constructing a Quadtree index structure. Our formal security analysis shows that data privacy and index privacy can be guaranteed during the query process. Our extensive experiments using a real-world dataset demonstrate the efficiency and feasibility of our schemes.

Topics & Concepts

Computer scienceBloom filterEncryptionAccess controlRange query (database)ServerCloud computingData miningWeb search queryInformation retrievalTheoretical computer scienceSearch engineComputer networkSargableOperating systemCryptography and Data SecurityPrivacy-Preserving Technologies in DataInternet Traffic Analysis and Secure E-voting
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