A Microgrid Security Defense Method Based on Cooperation in an Edge-Computing Environment

Turkish J. Electr. Eng. Comput. Sci. Pub Date : 2023-05-05 DOI:10.1155/2023/1856876

Jian Shang, Runmin Guan, Changlu Shen

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Abstract

Aiming at the problems of high delay and vulnerable to network attack in the traditional microgrid centralized architecture, a collaborative microgrid security defense method in the edge-computing environment is proposed. First, we build the edge-computing framework for microgrid, deploy the edge-computing server near the equipment terminal to improve the data processing efficiency, and deploy the blockchain in the edge server to ensure the reliability of the system. Then, the fully homomorphic encryption algorithm is used to design the smart contract, and the secure sharing of information is ensured through identity authentication, data encryption call, and so on. Finally, the credibility model is integrated into the election algorithm and is used to build a trusted edge cooperation mechanism to further improve the ability of the system to defend against network attacks. Based on the microgrid model, the experimental demonstration of the proposed method is carried out. The results show that when subjected to a network attack, the current fluctuation range is small and the defense success rate exceeds 95%, which is better than other methods and can better meet the requirements of practical application.

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边缘计算环境下基于协作的微电网安全防御方法

针对传统微网集中式架构存在的时延高、易受网络攻击等问题，提出了一种边缘计算环境下的协同微网安全防御方法。首先，构建微电网边缘计算框架，将边缘计算服务器部署在设备终端附近，提高数据处理效率，并将区块链部署在边缘服务器上，保证系统的可靠性。然后，采用全同态加密算法设计智能合约，通过身份认证、数据加密调用等方式确保信息的安全共享。最后，将可信度模型集成到选举算法中，构建可信边缘合作机制，进一步提高系统抵御网络攻击的能力。基于微电网模型，对该方法进行了实验验证。结果表明，在受到网络攻击时，电流波动范围小，防御成功率超过95%，优于其他方法，能较好地满足实际应用要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Turkish J. Electr. Eng. Comput. Sci.

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