Litcius/Paper detail

PPCS: An Intelligent Privacy-Preserving Mobile-Edge Crowdsensing Strategy for Industrial IoT

Xiaoding Wang, Sahil Garg, Hui Lin, Georges Kaddoum, Jia Hu, M. Shamim Hossain

2020IEEE Internet of Things Journal29 citationsDOI

Abstract

Mobile-edge crowdsensing is capable of providing a large amount of data via pervasive mobile terminals for Industrial Internet of Things (IIoT). However, the generated data often contain users' sensitive information, which suggests the significance of privacy preserving in data aggregation and analysis for IIoT. Privacy preserving in mobile-edge crowdsensing have conflicting objectives, i.e., the edge fusion center (FC) requires data of better quality for data fusion with higher accuracy whereas participatory users (PUs) desire better privacy preserving by larger noise injection. Therefore, how to select proper noises to achieve the tradeoff between accuracy and privacy is a challenging problem. In addition, FC is subject to data tempering due to the lack of data reliability validations and incentive mechanisms. To tackle these problems, we propose a novel privacy-preserving mobile-edge crowdsensing strategy (PPCS) for IIoT. Specifically, PPCS provides a Kullback-Leibler privacy-preserving data aggregation using a reputation-based incentive mechanism. On the other hand, PPCS offers hypothesis test-based data reliability validation and PU's reputation update, which collaborate to ease the impact of tampered data. Meanwhile, a reinforcement learning algorithm, the expected Sarsa, is applied to obtain the optimal test threshold. Theoretical analysis and experimental results show that PPCS is an energy-efficient strategy and the data provided by PPCS has a better aggregation accuracy than certain baseline strategies.

Topics & Concepts

Computer scienceCrowdsensingEnhanced Data Rates for GSM EvolutionReliability (semiconductor)Data aggregatorParticipatory sensingInformation privacySensor fusionEdge computingData miningArtificial intelligenceComputer securityComputer networkWireless sensor networkData sciencePhysicsQuantum mechanicsPower (physics)Mobile Crowdsensing and CrowdsourcingPrivacy-Preserving Technologies in DataPrivacy, Security, and Data Protection