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Using Reduced Paths to Achieve Efficient Privacy-Preserving Range Query in Fog-Based IoT

Hassan Mahdikhani, Rongxing Lu, Jun Shao, Ali A. Ghorbani

2020IEEE Internet of Things Journal25 citationsDOI

Abstract

The fog computing architectural model has recently seen advances with respect to bandwidth and latency issues. However, since fog devices are deployed at the network edge and are not fully trustable, there are still security and privacy challenges. In this article, aiming at improving both communication efficiency and privacy protection, we propose a new efficient and privacy-preserving range query scheme in fog-based Internet of Things (IoT). We, first, introduce a new decomposition technique to efficiently interpret a given range query [L, U], where 0 ≤ L ≤ U ≤ n - 1, as a form of inverted reduced path strings. Then, the symmetric homomorphic encryption (SHE) scheme is employed to encrypt the reduced paths and hand them over securely through a fog node to the IoT devices. This technique enables a query user to launch a privacy-preserving continuous or noncontinuous range query and receive a homomorphically aggregated encrypted response with an improved O(log <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">2</sup> n) communication efficiency. The detailed security analysis shows that our proposed scheme is privacy preserving. In addition, extensive performance evaluations are also conducted, and the results demonstrate that our proposed scheme is by far more efficient than those previously reported schemes in terms of computational overhead and communication complexity.

Topics & Concepts

Computer scienceHomomorphic encryptionEncryptionOverhead (engineering)Range query (database)Scheme (mathematics)Computer networkSecurity parameterDifferential privacySecurity analysisNode (physics)Theoretical computer sciencePath (computing)AlgorithmComputer securitySearch engineInformation retrievalWeb search queryMathematicsSargableMathematical analysisOperating systemEngineeringStructural engineeringCryptography and Data SecurityPrivacy-Preserving Technologies in DataSecurity in Wireless Sensor Networks
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