Fault Identification Method for Measured Travelling Wave of Transmission Line Based on CSCRFAM-Transformer

Hongchun Shu; Haoming Liu; Yutao Tang; Xuan Su; Yiming Han; Yue Dai

Citation:Hongchun Shu,Haoming Liu,Yutao Tang,et al.Fault Identification Method for Measured Travelling Wave of Transmission Line Based on CSCRFAM-Transformer[J].Protection and Control of Modern Power Systems,2025,V10(2):69-82[Copy]

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Fault Identification Method for Measured Travelling Wave of Transmission Line Based on CSCRFAM-Transformer
Hongchun Shu,Haoming Liu,Yutao Tang,Xuan Su,Yiming Han,Yue Dai
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Abstract:

The ability to accurately classify fault type within traveling wave data is crucial for real-time online fault location and protection using traveling wave technology. However, the current common practice in the power industry relies on manual data screening followed by offline processing, leading to several limitations such as poor timeliness, low accuracy, and high skill requirements for operators. These drawbacks restrict the application of traveling wave acquisition devices. To address these issues, this paper proposes a fault identification method for measuring the traveling wave of transmission lines based on the CSCRFAM-Transformer. Firstly, CSCRFAM is used to encode the temporal and spatial information of the measured traveling wave data. Next, pixel-level features are further aggregated through dimensional interaction. Then, an adaptive encoding hierarchy Transformer adjustment mechanism is employed to extract multi-level differentiated traveling wave high-frequency information from the aggregated features to complete fault identification. This method combines the dimensional interaction of the EMA mechanism and the self-attention mechanism of the Transformer's sensitivity to the spatiotemporal characteristics of traveling waves. The proposed method is trained and tested using a massive dataset of 396 672 measured samples from 110 kV to 220 kV transmission lines in Yunnan Power Grid. The method is used to identify, classify, test, and compare four distinct types of traveling wave data. The obtained results show that the method reduces the number of model parameters and improves the identification accuracy. The mAUC, Accuracy, Precision, and F1 values of the algorithm reach 0.969, 0.969, 0.965, and 0.957, respectively, indicating better detection accuracy and identification efficiency.

Key words: Traveling wave acquisition device, CSCRFAM, EMA, adaptive transformer, fault identification.

DOI：10.23919/PCMP.2023.000322

Fund:This work is supported by the Key Program of National Science Foundation of China: Research on the Basic Theory and Method of Multiple Lightning Stroke Identification and Protection for Transmission Lines in Plateau Mountainous Areas (No. 52337005).