A Diagnosis Method for the Compound Fault of Gearboxes Based on Multi-Feature and BP-AdaBoost

Zhang, Yangyang; Jia, Yunyi; Wu, Weiyi; Cheng, Zhonghua; Su, Xiaobo; Lin, Aqiang

doi:10.3390/sym12030461

Cited by 14 publications

(9 citation statements)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The multi-sensory data collection setup has a high cost and AdaBoost performance was not satisfactory. Zhang et al 53 have used time-domain vibrational analysis of gearbox. The wavelet packet decomposition was used as a feature extraction method and AdaBoost classifier was used to achieve a classification accuracy of 96.94%.…”

Section: Performance Comparisonmentioning

confidence: 99%

Condition monitoring of water pump bearings using ensemble classifier

Irfan

Althobiani

Alwadie

et al. 2022

Advances in Mechanical Engineering

View full text Add to dashboard Cite

The bearings faults are reported to be the major reason for centrifugal pump (CPs) failures. Limited literature is available to diagnose the minor scratches in the bearing surface through non-intrusive condition monitoring techniques. Recent research on the analysis of bearing scratches through non-intrusive motor current analysis (MCA) has shown encouraging results where the comparison of machine learning and convolutional neural networks (CNNs) was performed in the classification of healthy bearings and faulty bearings (holes and scratches). The fault classification accuracy of 89.26% through MCA combination with machine learning and CNN algorithm was reported which is very low. The key factors of low accuracies were identified as low amplitudes of the harmonics in the MCA spectrum, the magnitude of environmental noise, and utilization of conventional feature extraction techniques. This problem has been tackled in this paper by developing a novel feature extractor (NFE) that extracts powerful features from the integrated current and voltage sensors data. The NFE has been derived using the threshold-based decision mechanism which has the capability to identify the location of the feature harmonic, feature extraction, measure the amplitude of the fault component, and compare it with the derived threshold. The experimental data has been collected for the bearing balls (BB), bearing cage (BC), inner race (IR) and the outer race (OR) faults, and the performance of the NFE has been tested on an ensemble classifier (CatBoost) and the better classification accuracy (99.2% for an individual feature and 100% with the combination of two or more features) of NFE has been achieved as compared to previously reported methods.

show abstract

Section: Performance Comparisonmentioning

confidence: 99%

Condition monitoring of water pump bearings using ensemble classifier

Irfan

Althobiani

Alwadie

et al. 2022

Advances in Mechanical Engineering

View full text Add to dashboard Cite

show abstract

“…The optimization rule of the AO algorithm starts from the population of the candidate solution (X) in Equation (19), which is randomly generated between the upper bound (UB) and the lower bound (LB) of a given problem. The best-obtained solution, so far, is determined as the optimal solution approximately in each iteration.…”

Section: Aquila Optimizer (Ao)mentioning

confidence: 99%

“…Chen [18] used a combination of wavelet packet decomposition (WPD), overall average empirical mode decomposition (EEMD) and information entropy to extract the multiple features of the signal, and used the multi-classifier group composed of support vector machine (SVM) sub-classifiers to identify the multiple features, so as to realize the diagnosis and recognition of compound faults of rolling bearings. Zhang et al [19] used the AdaBoost algorithm and the back propagation (BP) neural network to effectively identify the compound fault mode of gearbox. However, SVM and the BP neural network used in pattern recognition are shallow networks, the number of hidden layers and the ability of feature learning and expression are limited, and the training can easily to fall into the local extremum.…”

Section: Introductionmentioning

confidence: 99%

Compound Fault Diagnosis of Rolling Bearing Based on ACMD, Gini Index Fusion and AO-LSTM

Wang

2021

Symmetry

View full text Add to dashboard Cite

Due to the symmetry of the rolling bearing structure and the rotating operation mode, it will cause the coupling modulation phenomenon when it is damaged in multiple places at the same time, which makes it difficult to accurately identify all kinds of faults. For such problems, a compound fault diagnosis method based on adaptive chirp mode decomposition (ACMD), Gini index fusion and long short-term memory (LSTM) neural network optimized by Aquila Optimizer (AO) is proposed. Firstly, a series of IMF components are obtained by decomposing the vibration signal by means of ACMD, and the required components are selected by using the correlation coefficient method. Then, the Gini index of the square envelope (GISE) and the Gini index of the square envelope spectrum (GISES) of each component are calculated, respectively, and they are fused to construct a highly dimensional feature matrix. Then, with the aim of solving the problem of difficult selection of LSTM hyperparameters, the AO-LSTM model is constructed. Finally, the feature matrix is divided into a training set and a test set. The training set is input into the model for training, and then the training network is used to predict the test set, and outputs diagnostic results. The simulation and experimental results show that the proposed method can achieve higher accuracy and stronger robustness, compared with the existing intelligent diagnosis methods for bearing compound faults.

show abstract

“…According to the principle of constructing the evaluation index system, through the analysis of equipment composition, establishment tasks and structural characteristics of the Synthetic Brigade, and through expert consultation and literature review, the evaluation indicators are strictly selected. The equipment maintenance support capability of the Synthetic Brigade includes organization planning capability, equipment maintenance capability, equipment support capability and data support capability [3][4][5]. According to the three levels of "ability -evaluation elements -standard requirements", it is decomposed and refined [6].…”

Section: Construction Of Evaluation Index System For Actual Combat Drill Of Equipment Maintenance Support Capability 21 Index System Consmentioning

confidence: 99%

Research on the construction of evaluation index system for equipment maintenance support capability based on AHP

et al. 2021

Self Cite

View full text Add to dashboard Cite

Under the two-level maintenance mode, in order to scientifically evaluate the maintenance support ability of synthetic brigade under the new system, it is an urgent problem to establish a reasonable evaluation index system. First of all, the mission, organizational structure and equipment characteristics of synthetic brigade under the new situation are analyzed. Then, according to the principle and method of establishing index system, the evaluation index is put forward. Finally, AHP is used to determine the index weight, so as to establish the evaluation index system of actual combat training of equipment maintenance support capability of synthetic brigade under the new system.

show abstract

A Diagnosis Method for the Compound Fault of Gearboxes Based on Multi-Feature and BP-AdaBoost

Cited by 14 publications

References 48 publications

Condition monitoring of water pump bearings using ensemble classifier

Condition monitoring of water pump bearings using ensemble classifier

Compound Fault Diagnosis of Rolling Bearing Based on ACMD, Gini Index Fusion and AO-LSTM

Research on the construction of evaluation index system for equipment maintenance support capability based on AHP

Contact Info

Product

Resources

About