Litcius/Paper detail

FedSky: An Efficient and Privacy-Preserving Scheme for Federated Mobile Crowdsensing

Xichen Zhang, Rongxing Lu, Jun Shao, Fengwei Wang, Hui Zhu, Ali A. Ghorbani

2021IEEE Internet of Things Journal36 citationsDOI

Abstract

Mobile crowdsensing (MCS) is a newly emerged sensing paradigm, where a large group of mobile workers collectively sense and share data for real-time services. However, one major problem that hinders the further development of MCS is the potential leakage of workers’ data privacy. In this article, we integrate federated learning (FL) with MCS and introduce a novel sensing system, called federated MCS (F-MCS). In F-MCS, the workers can optimize the global model while keeping all the sensitive training data locally, thus ensuring their data privacy. Nevertheless, there are still two major issues in F-MCS. The first issue is that in F-MCS services, the workers are heterogeneous in terms of computational capacities and data resources. Hence, qualified workers should be appropriately selected to improve the efficiency of the training process. The second issue is that F-MCS is a <italic xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">cross-device</i> FL system, where the platform will finally get the global model after multiple training rounds. However, most privacy-preserving techniques are designed for <italic xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">cross-silo</i> FL platforms, which cannot be applied to real-world F-MCS scenarios. To tackle the above problems, in this article, we propose a privacy-preserving scheme for F-MCS, namely, FedSky. Mainly, by extending the classic FedAvg algorithm, FedSky selects qualified workers based on the constrained group skyline (CG-skyline) and securely aggregates model updates based on the homomorphic encryption technique. Comprehensive security analysis demonstrates the privacy preservation of FedSky. Extensive experiments are conducted on an image classification task, where the comparison results validate the proposed scheme’s efficiency and effectiveness.

Topics & Concepts

CrowdsensingComputer scienceScheme (mathematics)Information privacyComputer networkMobile computingMobile telephonyComputer securityMobile radioMathematical analysisMathematicsMobile Crowdsensing and CrowdsourcingHuman Mobility and Location-Based AnalysisEvacuation and Crowd Dynamics