Abstract
With the arrival of the big data era, it has become possible to apply deep learning to the health monitoring of mine production. In this paper, a convolutional neural network (CNN)-based method is proposed to monitor the health condition of the balancing tail ropes (BTRs) of the hoisting system, in which the feature of the BTR image is adaptively extracted using a CNN. This method can automatically detect various BTR faults in real-time, including disproportional spacing, twisted rope, broken strand and broken rope faults. Firstly, a CNN structure is proposed, and regularization technology is adopted to prevent overfitting. Then, a method of image dataset description and establishment that can cover the entire feature space of overhanging BTRs is put forward. Finally, the CNN and two traditional data mining algorithms, namely, k-nearest neighbor (KNN) and an artificial neural network with back propagation (ANN-BP), are adopted to train and test the established dataset, and the influence of hyperparameters on the network diagnostic accuracy is investigated experimentally. The experimental results showed that the CNN could effectively avoid complex steps such as manual feature extraction, that the learning rate and batch-size strongly affected the accuracy and training efficiency, and that the fault diagnosis accuracy of CNN was 100%, which was higher than that of KNN and ANN-BP. Therefore, the proposed CNN with high accuracy, real-time functioning and generalization performance is suitable for application in the health monitoring of hoisting system BTRs.
Highlights
A mine’s hoisting system is the only way to connect the underground with the ground and is known as the “throat” of the mine [1,2]
The main contributions of this paper are as follows: (1) The deep learning method is introduced to the health monitoring and fault diagnosis of hoisting systems for the first time, and a convolutional neural network (CNN) method is proposed that diagnoses
The convolutional neural network for the health monitoring and fault diagnosis of the convolutional neural network for the health monitoring and fault diagnosis of hoisting system balancing tail ropes (BTRs) proposed in this paper presented a good performance, meeting the hoisting system BTRs proposed in this paper presented a good performance, meeting the requirements requirements of accuracy, real-time functioning, and generalization performance
Summary
A mine’s hoisting system is the only way to connect the underground with the ground and is known as the “throat” of the mine [1,2]. CNNs have not yet been applied in the field of health monitoring and fault diagnosis for hoisting systems’ BTRs. This paper presents the design of an online BTR monitoring system based on machine vision and a CNN, that can provide reliable fault warning information, realize the automation of BTR’. The main contributions of this paper are as follows: (1) The deep learning method is introduced to the health monitoring and fault diagnosis of hoisting systems for the first time, and a CNN method is proposed that diagnoses. BTR faults more accurately than k-nearest neighbor (KNN) and artificial neural network with back propagation (ANN-BP) algorithms; (2) A method of establishing a BTR image dataset that can cover the entire feature space is put forward; (3) The same framework can be applied to other health monitoring and fault diagnosis applications where machine vision and CNN are demanded.
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