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Fast and Secure kNN Query Processing in Cloud Computing

Xinyu Lei, Guan-Hua Tu, Alex X. Liu, Tian Xie

202019 citationsDOI

Abstract

Advances in sensing and tracking technology lead to the proliferation of location-based services. Location service providers (LSPs) often resort to commercial public clouds to store the tremendous geospatial data and process location-based queries from data users. To protect the privacy of LSP's geospatial data and data user's query location against the untrusted cloud, they are required to be encrypted before sending to the cloud. Nevertheless, it is not easy to design a fast and secure location-based query processing scheme over the encrypted data. In this paper, we propose a Fast and Secure kNN (FSkNN) scheme to support secure k nearest neighbor (k NN) search in cloud computing. We reveal the inherent connection between an Sk NN protocol and a secure range query protocol and further describe how to construct FSkNN based on a secure range query protocol. FSkNN leverages a customized accuracy-assured strategy to ensure the result accuracy and adopts a data structure named random Bloom filter (RBF) to build a secure index for efficiently searching. We formally prove the security of FSkNN under the random oracle model. Our evaluation results show that FSkNN is highly practical.

Topics & Concepts

Computer scienceCloud computingEncryptionGeospatial analysisBloom filterRandom oracleProtocol (science)Range query (database)Query optimizationOracleData miningDatabaseComputer networkWeb search querySargableInformation retrievalPublic-key cryptographySearch engineOperating systemCartographyMedicinePathologySoftware engineeringAlternative medicineGeographyCryptography and Data SecurityPrivacy-Preserving Technologies in DataSecurity in Wireless Sensor Networks
Fast and Secure kNN Query Processing in Cloud Computing | Litcius