With the rapid development of high‐speed railways, fault detection and diagnosis for traction transformers are more and more important, and the detection method with high accuracy is the key to assure the normal operation of the traction power supply system. A method based on kernel principal component analysis (KPCA) and random forest (RF) is proposed to diagnose the traction transformer faults in this study. In this method, KPCA can obtain more fault characteristics in high‐dimensional space through the non‐linear transformation of the original data with dissolved gas analysis, and RF can utilise these characteristics to construct the classifier group. The experimental results show that the combination of KPCA and RF can effectively extract more characteristics of traction transformer faults to construct the classifiers with better performance, which contributes to the higher accuracy in traction transformer fault diagnosis and gets better anti‐jamming performance.
Fault diagnosis approach of traction transformers in high‐speed railway combining kernel principal component analysis with random forest
IET Electrical Systems in Transportation ; 6 , 3 ; 202-206
01.09.2016
5 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
fault diagnosis , random forest , data nonlinear transformation , KPCA , pattern classification , traction transformer fault diagnosis approach , classifier construction , reliability , kernel principal component analysis , high‐dimensional space fault characteristics , high‐speed railway , traction power supply system , traction power supplies , railways , jamming , principal component analysis , fault detection method , antijamming performance , power transformers , interference suppression
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