An optimized stacked diagnosis structure for fault diagnosis of wind turbine planetary gearbox

Lü, Li; He, Yigang; Ruan, Yi; Yuan, Wanmai

doi:10.1088/1361-6501/abf30b

Cited by 17 publications

(20 citation statements)

References 38 publications

(47 reference statements)

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“…The gearbox dataset of Case 1 is provided by the University of Connecticut (UoC), 39,40 which has been extensively used to explore the performance of fault diagnosis methods. [41][42][43][44][45][46][47][48] In addition, Zhao et al 41 tested seven publicly available datasets through four benchmark types of deep learning models and showed that the UoC gearbox dataset is the most difficult to diagnose among the seven datasets. The gearbox data of Case 1 is used to study the universality and progressiveness of the proposed method.…”

Section: Case Studymentioning

confidence: 99%

Robust fault diagnosis of quayside container crane gearbox based on 2D image representation in frequency domain and CNN

Zhang

Qin

et al. 2023

Structural Health Monitoring

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To accurately diagnose the quayside container crane (QCC) gearbox faults, this article proposes a method that combines the frequency-domain Markov transformation field (FDMTF) and multi-branch residual convolutional neural network (MBRCNN). Firstly, the gearbox vibration signal is converted into the frequency domain to reveal the components and amplitude of signals stably and concisely. Then, the one-dimensional frequency signal is encoded into the two-dimensional image by the Markov transformation field to capture the dynamic characteristics of signals. Thirdly, the MBRCNN network is constructed, which can extract multi-scale features and alleviate the problems caused by the deep network structure. Finally, the FDMTF image is fed into the constructed MBRCNN model for pattern recognition. The effectiveness of the proposed FDMTF–MBRCNN method is verified by two case studies. In Case 1, the diagnosis results of a benchmark dataset achieve 100% accuracy, better than seven state-of-the-art methods published in recent 3 years. In Case 2, the diagnosis results of the dataset collected from a 1:4 scaled test rig achieve 98.85% accuracy, better than eleven encoding methods and four convolutional neural network methods. It also can obtain a recognition accuracy of more than 94% under the conditions of small sample, different network hyper-parameters, or variable loads, which verifies its robustness. These case studies show that the FDMTF–MBRCNN method is expected to be applied to the actual fault diagnosis of QCC gearboxes.

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Section: Case Studymentioning

confidence: 99%

Robust fault diagnosis of quayside container crane gearbox based on 2D image representation in frequency domain and CNN

Zhang

Qin

et al. 2023

Structural Health Monitoring

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“…Fault diagnosis methods mainly include vibration signalbased methods [6][7][8][9] and thermal signal-based methods [10,11]. The vibration signal has high accuracy, it is the most accessible signal in research and applications.…”

Section: Introductionmentioning

confidence: 99%

“…The precision rate, recall rate, and F-score of this run are shown in figure12. In fault diagnosis, precision rate and recall rate are evaluation metrics, represented respectively as follows: Precision = TP/(TP + FP)(6) Recall = TP/(TP + FN)(7)…”

mentioning

confidence: 99%

Fault diagnosis of bearing-rotor system based on infrared thermography: ReSPP with multi-scaled training method

An,

Liu,

Shao

et al. 2023

Meas. Sci. Technol.

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The fault diagnosis method of bearing-rotor system based on infrared thermography can reflect the global fault information of the equipment, which is an advanced non-contact monitoring measure. Current diagnosis methods focus on the analysis of single-scale input images, and the network only accepts fixed-size inputs. The model is not capable of fusing multi-scaled fault features while processing single-scaled images, and compression for the size constraint will cause geometric distortion. This paper proposed a novel fault diagnosis model ReSPP (Residual Network with Least Spatial Pyramid Pooling (LSPP)) based on the improved LSPP. LSPP solves the problem of fault feature distortion caused by fixed-size constraint of the network. By replacing the single-scaled training with the proposed multi-scaled training method applied to fault diagnosis, the weight parameters of ReSPP pool the deep fault features of the bearing-rotor system at multiple scales, retaining the critical fault semantic information. The proposed model solves the fault feature loss in the process of feature extraction by improving the subsampling residual block. Experimental results show that ReSPP with multi-scaled training method (ReSPP-MSTM) classifies the fault conditions of the bearing-rotor system with an average diagnostic accuracy of 99.18%.

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“…In the past decades, rotating machines have been widely applied in modern industries [1]. Machinery failures during operations severely compromise safety and lead to large maintenance costs [2,3]. Effective and accurate machine health condition monitoring and fault diagnosis have always been in high demand.…”

Section: Introductionmentioning

confidence: 99%

Interpretability of deep convolutional neural networks on rolling bearing fault diagnosis

Yang

Zhang

2022

Meas. Sci. Technol.

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Despite the rapid development of deep learning-based intelligent fault diagnosis methods on rotating machinery, the data-driven approach generally remains a "black box" to researchers, and its internal mechanism has not been sufficiently understood. The weak interpretability significantly impedes further development and applications of the effective deep neural network-based methods. This paper contributes efforts to understanding the mechanical signal processing of deep learning on the fault diagnosis problems. The diagnostic knowledge learned by the deep neural network is visualized using the neuron activation maximization and the saliency map methods. The discriminative features of different machine health conditions are intuitively observed. The relationship between the data-driven methods and the well-established conventional fault diagnosis knowledge is confirmed by the experimental investigations on two datasets. The results of this study can benefit researchers on understanding the complex neural networks, and increase the reliability of the data-driven fault diagnosis model in the real engineering cases.

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An optimized stacked diagnosis structure for fault diagnosis of wind turbine planetary gearbox

Cited by 17 publications

References 38 publications

Robust fault diagnosis of quayside container crane gearbox based on 2D image representation in frequency domain and CNN

Robust fault diagnosis of quayside container crane gearbox based on 2D image representation in frequency domain and CNN

Fault diagnosis of bearing-rotor system based on infrared thermography: ReSPP with multi-scaled training method

Interpretability of deep convolutional neural networks on rolling bearing fault diagnosis

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