Litcius/Paper detail

BPRM: Blockchain-Based Privacy Preserving and Robust Data Aggregation Supporting Multifunctionality for Fog-Assisted Smart Grid

Chuankun Zhao, Liangliang Wang, Zhiquan Liu, Kai Zhang, Libo Wang, Weiwei Li, Kefei Chen

2024IEEE Internet of Things Journal13 citationsDOI

Abstract

While the collection of users’ live or periodic electricity consumption data brings significant advantages for the operation of smart grids, it also heightens the risk of user privacy leakage. Numerous data aggregation schemes have been proposed to address this issue. However, most of these schemes either fail to accommodate the need for multifunctional data analysis or rely on a trusted third party (TTP). Given the efficient data processing capabilities offered by fog computing, we propose a blockchain-based privacy-preserving data aggregation (BPRM) scheme supporting multifunctionality for fog-assisted smart grid without TTP. This scheme ensures data confidentiality and data integrity while providing various statistical functions. In addition, we implement a consensus mechanism between smart meters, further enhancing the security and robustness of the smart grid system. Moreover, not only does the proposed the batch verification reduce the authentication costs but also support error detection in signatures. With BPRM, data center can calculate multiple statistical functions, achieving a win-win strategy. Extensive security and performance analyses demonstrate that BPRM can withstand various security threats and effectively protect user privacy while maintaining efficiency in both computational and communication overhead.

Topics & Concepts

BlockchainComputer scienceSmart gridData aggregatorInformation privacyDistributed computingComputer securityGridPrivacy protectionFog computingInternet of ThingsComputer networkWireless sensor networkMathematicsGeometryBiologyEcologyBlockchain Technology Applications and SecuritySmart Grid Security and ResilienceIoT and Edge/Fog Computing
BPRM: Blockchain-Based Privacy Preserving and Robust Data Aggregation Supporting Multifunctionality for Fog-Assisted Smart Grid | Litcius