Gear Fault Detection in a Planetary Gearbox Using Deep Belief Network
Hu Hao, Fuzhou Feng, Jiang Feng, Zhou Xun, Junzhen Zhu, Xue Jun, Pengcheng Jiang, Li Yazhi, Qian Yongchan, Sun Guanghui, Chen Caishen
Abstract
Traditional prognostics and health management (PHM) methods for fault detection require complex signal processing and manual fault feature extraction, and the accuracy is low. To address these problems, a fault diagnosis method of planetary gearbox based on deep belief networks (DBNs) is proposed. Firstly, the vibration signals of the planetary gearbox are collected and analyzed in the time domain and the frequency domain. Then, the DBN model and optimal parameters are determined to meet the task requirements. Finally, the vibration data is divided into training set and test set and input into the DBN model, which can realize the automatic feature extraction and fault recognition of vibration signals. The results show that the identification accuracy reaches 97% under five working conditions of planetary gearbox.