Power transformer fault diagnosis considering data imbalance and data set fusion

Improving the accuracy of transformer dissolved gas analysis is always an important demand for power companies. However, the requirement for large numbers of fault samples becomes an obstacle to this demand. This article creatively uses a large number of health data, which is much easier to obtain b...

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Bibliographic Details
Published in:High voltage 2021-06, Vol.6 (3), p.543-554
Main Authors: Zhang, Yang, Chen, Hong Cai, Du, Yaping, Chen, Min, Liang, Jie, Li, Jianhong, Fan, Xiqing, Yao, Xin
Format: Article
Language:English
Subjects:
Accuracy
Algorithms
Artificial intelligence
Classification
Data analysis
Datasets
Demand analysis
Dissolved gases
Fault diagnosis
Gas analysis
Gases
Methods
patient diagnosis
Performance evaluation
power engineering computing
power transformers
Transformers
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Summary:Improving the accuracy of transformer dissolved gas analysis is always an important demand for power companies. However, the requirement for large numbers of fault samples becomes an obstacle to this demand. This article creatively uses a large number of health data, which is much easier to obtain by power companies, to improve diagnosis accuracy. Comprehensive investigations from the view of both data set and methodology to deal with this problem are presented. A data set consists of 9595 health samples and 993 fault samples is used for analysis. The characteristics of the data set and the influence of the health data on diagnostic accuracy are discussed. The performance of many state‐of‐art algorithms that handle the imbalanced problem is evaluated. Meanwhile, an efficient fault diagnosis algorithm named self‐paced ensemble (SPE) is presented. In SPE, classification hardness is proposed to include the data characteristic in the classification. This method can guarantee the diversity of the data set and keep high performance. According to the experiment results, the superior of SPE is confirmed and also proves that involving more health samples can improve transformer diagnosis when fault data are limited.
ISSN:2397-7264
2397-7264
DOI:10.1049/hve2.12059