A secure demand response management authentication scheme for smart grid
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Date
2021Author
Irshad, AzeemChaudhry, Shehzad Ashraf
Alazab, Mamoun
Kanwal, Ambrina
Zia, M. Sultan
Bin Zikria, Yousaf
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The electricity demands are floated through smart grid (SG) devices to a remote power management system and
utility center (UC) for utilizing energy-based services, while the UCs manage the distribution of power. Nevertheless, in smart grid systems, the communication messages are susceptible to various threats, since the information related to power consumption is communicated over an unsafe public channel. Therefore, a secure
authenticated key agreement scheme is crucial for dispensing energy-based services to legal subscribers. In this
regard, Yu et al. designed a secure authentication scheme for smart grid-based demand response management.
Nevertheless, we discover that Yu et al.’s protocol is prone to replay attack, denial-of-service attack, and many
technical defects in the protocol. Thus, we propose an anonymous and lightweight authenticated key agreement
protocol for smart grid-based demand response management countering the limitations in Yu et al.’s scheme. Our
scheme may withstand known security attacks, and also supports privacy as well as mutual authentication. We
evaluate the security properties of contributed protocol employing informal security analysis and proved the
security of session key between the utility center and smart grid using Burrows Abadi Needham (BAN) logic
analysis and ProVerif automated simulation. The achieved results sufficiently advocate the practical implementation of the scheme.
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