sis 23(3): e7

Research Article

Secure Data Processing Technology of Distribution Network OPGW Line with Edge Computing

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  • @ARTICLE{10.4108/eetsis.v10i3.2837,
        author={Ying Zeng and Zhongmiao Kang and Zhan Shi},
        title={Secure Data Processing Technology of Distribution Network OPGW Line with Edge Computing},
        journal={EAI Endorsed Transactions on Scalable Information Systems},
        volume={10},
        number={3},
        publisher={EAI},
        journal_a={SIS},
        year={2023},
        month={1},
        keywords={Secrecy outage probability, OPGW communication, edge computing},
        doi={10.4108/eetsis.v10i3.2837}
    }
    
  • Ying Zeng
    Zhongmiao Kang
    Zhan Shi
    Year: 2023
    Secure Data Processing Technology of Distribution Network OPGW Line with Edge Computing
    SIS
    EAI
    DOI: 10.4108/eetsis.v10i3.2837
Ying Zeng1,*, Zhongmiao Kang1, Zhan Shi1
  • 1: Power dispatching control center of Guangdong Power Grid Co., Ltd, China
*Contact email: yingzeng2022@126.com

Abstract

Promoted by information technology and scalable information systems, the network design and communication method of optical fiber composite overhead ground wire (OPGW) have been in great progress recently. As the overhead transmission line has strict requirements on the outer diameter and weight of OPGW, it is of vital importance to perform the physical-layer secure data processing for the distribution network OPGW line with edge computing. To this end, we examine a physical-layer secure distribution network OPGW with edge computing in this article, where there exists one transmitter S, one receiver D, one authorized legitimate monitor LM, and an interfering node I. To better analyze the system performance, we firstly give the definition of the system outage probability, based on the secure data rate. Then, we evaluate the system performance for the distribution network OPGW, by deriving analytical outage probability of secure data processing, to facilitate the system performance evaluation of secure data processing in the entire SNR regime. Finally, we demonstrate some simulation results to validate the analytical results on the physical-layer secure distribution network OPGW line with edge computing.