Archive/A Dual-View Mixup-ResNet Method for Intelligent Monitoring and Fault Diagnosis of Cable Sheath Circulating Current Signals
A Dual-View Mixup-ResNet Method for Intelligent Monitoring and Fault Diagnosis of Cable Sheath Circulating Current Signals
Haiqi Yang, Jinwei Mao, Bo Zhang et al.
July 13, 2026
en

Abstract

In renewable-powered distribution systems and microgrids, reliable cable condition monitoring is essential for operational security and early fault detection. Sheath circulating current signals provide valuable information for identifying grounding abnormalities and incipient faults, but their diagnosis is difficult because the signals exhibit strong inter-phase coupling, and fault samples are limited in practice. This study proposes a dual-view Mixup-ResNet framework for fault diagnosis of cable sheath circulating current signals. Specifically, physical-range normalization is employed to retain magnitude-related fault information and inter-phase proportional relationships, while sample-wise z-score normalization is used to emphasize waveform morphology. These two complementary views are concatenated to form a six-channel input for a lightweight one-dimensional residual network, which is trained with Mixup, label smoothing, dropout, and cosine annealing. On an ATP-EMTP-generated eight-class dataset, the proposed method achieves an average accuracy of 91.50%, a weighted F1-score of 91.69%, and a macro F1-score of 91.69% under a unified 5 × 5 repeated stratified cross-validation protocol. Additional tests under 12% relative Gaussian noise show that the method maintains competitive Gaussian-noise tolerance within the tested condition, although broader field disturbances remain to be further validated. These findings suggest that the proposed method has potential for small-sample fault diagnosis of cable sheath circulating current signals and provides a preliminary basis for intelligent cable condition monitoring.

IPC Classification

G06H04A61H01

Keywords

dual-viewmixup-resnetintelligentmonitoringfaultdiagnosiscablesheathcirculatingcurrentsignalsenergiesrenewable-powereddistributionsystemsmicrogridsreliableconditionessentialoperationalsecurityearlydetectionprovide
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