Research on 5G differential protection data compression transmission technology

Jinan Li; Haixuan Fu; Guangming Guo; Guofeng Zhao; Ming Hu

doi:10.1117/12.2685884

28 July 2023 Research on 5G differential protection data compression transmission technology

Jinan Li, Haixuan Fu, Guangming Guo, Guofeng Zhao, Ming Hu

Proceedings Volume 12716, Third International Conference on Digital Signal and Computer Communications (DSCC 2023); 1271608 (2023) https://doi.org/10.1117/12.2685884
Event: Third International Conference on Digital Signal and Computer Communications (DSCC 2023), 2023, Xi'an, China

Abstract

The differential protection of distribution network has good selectivity and quick action, but it is difficult to apply in areas where the laying rate of optical fiber is not high. The emergence of 5G communication technology with low delay and high reliability provides a new communication solution for the application of distribution network differential protection technology. However, the 5G distribution network differential protection has a large amount of differential current data in its application, which leads to the problem of large data flow and high cost of 5G communication terminals. This paper proposes a scheme of adding differential protection data compression transmission technology to the 5G terminal, which not only does not affect the differential protection service, but also saves the communication data flow, providing a reference for the wide application of 5G technology in differential protection in the future.

Citation Download Citation

Jinan Li, Haixuan Fu, Guangming Guo, Guofeng Zhao, and Ming Hu "Research on 5G differential protection data compression transmission technology", Proc. SPIE 12716, Third International Conference on Digital Signal and Computer Communications (DSCC 2023), 1271608 (28 July 2023); https://doi.org/10.1117/12.2685884

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