Performance prediction of industrial robot harmonic reducer via feature transfer and Gaussian process regression

M. Hu, Guofeng Wang, Zenghuan Cao
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Abstract

This paper addresses the problem of identifying faults in the harmonic reducers of industrial robots by analysing their vibration signals. In order to solve the problem of obtaining fault data and rotation error from harmonic reducers in service, an accuracy performance prediction method based on transfer learning and Gaussian process regression (GPR) is proposed. The Euclidean distance between the spectral sequence of each component is proposed as the fitness index to optimise the transition bandwidth of the filter banks. The optimised empirical wavelet transform (OEWT) is used for signal decomposition to obtain sensitive frequency bands. A feature transfer method based on semi-supervised transfer component analysis (SSTCA) is proposed to achieve target domain feature transfer under missing data conditions. A prediction model based on GPR is established using the mapped features to predict the performance and accuracy of the harmonic reducer. The effectiveness of the proposed method is verified through model evaluation indicators and degradation experiments.
通过特征转移和高斯过程回归预测工业机器人谐波减速器的性能
本文探讨了通过分析工业机器人谐波减速器的振动信号来识别其故障的问题。为了解决从在役谐波减速器中获取故障数据和旋转误差的问题,本文提出了一种基于迁移学习和高斯过程回归(GPR)的精度性能预测方法。提出了各分量光谱序列之间的欧氏距离作为优化滤波器组过渡带宽的适应性指标。优化的经验小波变换(OEWT)用于信号分解,以获得敏感频带。提出了一种基于半监督转移分量分析(SSTCA)的特征转移方法,以实现缺失数据条件下的目标域特征转移。利用映射特征建立了基于 GPR 的预测模型,以预测谐波减速器的性能和精度。通过模型评估指标和降级实验验证了所提方法的有效性。
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