Secure and efficient mutual authentication protocol for smart grid under blockchain

Smart grid has been acknowledged as the next-generation intelligent network that optimizes energy efficiency. Primarily through a bidirectional communication channel, suppliers and users can dynamically adjust power transmission in real time. Nonetheless, many security issues occur with the widespre...

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Published in:Peer-to-peer networking and applications 2021-09, Vol.14 (5), p.2681-2693
Main Authors: Wang, Weizheng, Huang, Huakun, Zhang, Lejun, Su, Chunhua
Format: Article
Language:English
Subjects:
Authentication
Blockchain
Communications Engineering
Computer Communication Networks
Cryptography
Curves
Denial of service attacks
Engineering
Information Systems and Communication Service
Intelligent networks
Networks
Security
Signal,Image and Speech Processing
Smart grid
Special Issue on Blockchain for Peer-to-Peer Computing
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cited_by cdi_FETCH-LOGICAL-c385t-731caabda8337cdbfdd646410cafc62f5eab350c9156fd5138bf71d58a1877633
cites cdi_FETCH-LOGICAL-c385t-731caabda8337cdbfdd646410cafc62f5eab350c9156fd5138bf71d58a1877633
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container_title Peer-to-peer networking and applications
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creator Wang, Weizheng
Huang, Huakun
Zhang, Lejun
Su, Chunhua
description Smart grid has been acknowledged as the next-generation intelligent network that optimizes energy efficiency. Primarily through a bidirectional communication channel, suppliers and users can dynamically adjust power transmission in real time. Nonetheless, many security issues occur with the widespread deployment of smart grid, e.g., centralized register authority and potential Distributed-Denial-of-Service (DDoS) attack. These existing problems threaten the availability of smart grid. In this paper, we mainly focus on solving some identity authentication issues remained in the smart grid. Combined with blockchain, Elliptic Curve Cryptography (ECC), dynamic Join-and-Exit mechanism and batch verification, a reliable and efficient authentication protocol is proposed for smart meters and utility centers. Simultaneously, the provable security of this protocol is assured by the computational hard problem assumptions. Experiment results show that our protocol has achieved security and performance improvement compared with the other ECC related schemes.
doi_str_mv 10.1007/s12083-020-01020-2
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subjects Authentication
Blockchain
Communications Engineering
Computer Communication Networks
Cryptography
Curves
Denial of service attacks
Engineering
Information Systems and Communication Service
Intelligent networks
Networks
Security
Signal,Image and Speech Processing
Smart grid
Special Issue on Blockchain for Peer-to-Peer Computing
title Secure and efficient mutual authentication protocol for smart grid under blockchain
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