Article citationsMore>>

Fu, W., Li, S., Wen, B., Zheng, B., Liao, W. and Tan, C. (2025) A Review of Rolling Bearing Fault Diagnosis: Data Preprocessing and Model Optimization. Measurement Science and Technology, 36, Article 062002.
https://doi.org/10.1088/1361-6501/add7fb

has been cited by the following article:

• TITLE: Adaptive Dynamic K-NN Spatio-Temporal Graph Convolutional Network for Bearing Fault Diagnosis

  AUTHORS: Xiuwei Hu, Ting Fang, Wenhui Chang, Cunrui Pang, Tonghui Wang

  KEYWORDS: Rolling Bearing, Fault Diagnosis, Graph Convolutional Network, Adaptive Dynamic KNN, Spatio-Temporal Feature Fusion

  JOURNAL NAME: Journal of Computer and Communications, Vol.14 No.6, June 25, 2026

  ABSTRACT: Rolling bearing fault diagnosis is an important means to ensure the reliable operation of mechanical equipment. Aiming at the problems of poor working condition adaptability, over-smoothing in deep networks, and insufficient mining of fault temporal evolution features existing when the traditional K-nearest neighbor graph convolutional network is applied to bearing fault diagnosis, this paper proposes an adaptive dynamic K-NN spatio-temporal graph convolutional network (AdaDKNN-STGCN). Experimental validations are implemented on the CWRU bearing dataset. The proposed model attains a test accuracy of 99.78% in ten-class classification. It exhibits excellent generalization capability and anti-interference performance under noisy and variable load environments, which provides a reliable solution for intelligent fault diagnosis of rotating machinery bearings.