A Privacy-Preserving Incentive Mechanism for Mobile Crowdsensing based on Blockchain

• Published in: IEEE transactions on dependable and secure computing pp. 1 - 14
• Main Authors: Tong, Fei, Zhou, Yuanhang, Wang, Kaiming, Cheng, Guang, Niu, Jianyu, He, Shibo
• Format: Journal Article
• Language: English
• Published: IEEE 2024
• Subjects: Blockchain; Blockchains; Crowdsensing; Incentive Mechanism; Mobile Crowdsensing; Privacy; Privacy Preservation; Security; Sensors; Smart contracts; Task analysis
• ISSN: 1545-5971; 1941-0018
• DOI: 10.1109/TDSC.2024.3368655

Mobile crowdsensing (MCS) is an efficient approach for large-scale sensing data collection by leveraging the mobility and capability of mobile devices. To avoid the weaknesses of traditional centralized crowdsensing systems, blockchain has been introduced to secure the process of MCS. This paper studies a location-aware scenario, where privacy of users are protected in a blockchain- based MCS system, and formulates an optimization problem to maximize the coverage given a budget based on reverse auction. An incentive mechanism named MMCB is further proposed and implemented as smart contracts in blockchain to solve the problem. We demonstrate that the mechanism achieves a set of desirable properties, including computation efficiency, individual rationality, truthfulness, budget feasibility, approximation, and privacy preservation. To protect the identity privacy of workers and obtain anonymity, a linkable ring signature is employed in smart contracts. In addition, a Pedersen commitment is utilized for protecting workers' bid profile and the submitted sensing data is encrypted and only accessible to the requester. We implement a prototype system based on the Hyperledger Fabric platform, and the evaluation results show that our privacy-preserving incentive mechanism architecture improves 36.2% coverage and reduces 53.1% payment with better security level compared to the state-of-the-art schemes.