Abstract
The upcoming intelligent system which attempts to maximize energy efficiency is known as the Intelligent Energy System (IES). In which, prosumers could be either energy requester or responder, who dynamically adjust energy transfer on real-time basis, via a bi- directional channel. Even so, the widespread use of the IES raises several privacy and security concerns, such as centrally controlled administrative power, data alteration activities. Thus, the primary objective of our protocol is to address issues reading identity authentication exist in the IES. A trustworthy and reliable mutual authentication scheme is suggested by combining the Lattice-based Cryptosystem (LB) with blockchain based smart contract concept for P2P communication in IES. Blockchain concept is mainly used to minimize the negative impact of malicious validators existence in distributed system. To maintain the privacy of transferred data, an agreement session key is being generated between mutually authenticated peers. As a result, our suggested protocol works admirably with principle of integrity, security, and privacy. An informal security analysis is also performed by imposing the concept of hard assumption of SIS and ISIS challenges exist in LB cryptosystem.
Supported by organization RGIPT Jais.
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Verma, P., Gupta, D.S. (2023). SP2P-MAKA: Smart Contract Based Secure P2P Mutual Authentication Key Agreement Protocol for Intelligent Energy System. In: Abraham, A., Pllana, S., Casalino, G., Ma, K., Bajaj, A. (eds) Intelligent Systems Design and Applications. ISDA 2022. Lecture Notes in Networks and Systems, vol 715. Springer, Cham. https://doi.org/10.1007/978-3-031-35507-3_9
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