论文信息 - Artificial neural network for bearing defect detection based on acoustic emission

Artificial neural network for bearing defect detection based on acoustic emission

Neural networks have been widely used for many applications. One of the applications is forecasting. Many studies have proven that neural networks can provide good accuracy on forecasting future data with over than 80% accuracy. In this study, neural network is used to predict bearing defects. Two learning tasks, function approximation and pattern recognition, were used for detection and monitoring of defects in ball bearing. Given five categories of bearing defect, the neural networks have successfully proven the ability to distinguish one defect over the other with high accuracy. Acoustic emission (AE) was used as a measurement in this study. AE is defined as transient waves generated from a rapid release of strain energy by deformation or damage or on the surface of a material (1–3). The AE waves can provide information about bearing condition. Maximum amplitude and AE counts were used as the basis for detection.

Zahari Taha | Khusnun Widiyati | Z. Taha | K. Widiyati

[1] David,et al. A comparative experimental study on the use of acoustic emission and vibration analysis for bearing defect identification and estimation of defect size , 2006 .

[2] A. Pollock. Acoustic emission - 2: Acoustic emission amplitudes , 1973 .

[3] Ken-ichi Funahashi,et al. On the approximate realization of continuous mappings by neural networks , 1989, Neural Networks.

[4] J. Nazuno. Haykin, Simon. Neural networks: A comprehensive foundation, Prentice Hall, Inc. Segunda Edición, 1999 , 2000 .

[5] N. Tandon,et al. A review of vibration and acoustic measurement methods for the detection of defects in rolling element bearings , 1999 .

[6] B. Samanta,et al. Gear fault detection using artificial neural networks and support vector machines with genetic algorithms , 2004 .

[7] A. J. Hoffman,et al. The application of neural networks to vibrational diagnostics for multiple fault conditions , 2002, Comput. Stand. Interfaces.

[8] C.R.L. Murthy,et al. Acoustic emission characterization of failure modes in composites with ANN , 2003 .

[9] E. L. Harder,et al. The Institute of Electrical and Electronics Engineers, Inc. , 2019, 2019 IEEE International Conference on Software Architecture Companion (ICSA-C).

[10] C. Sujatha,et al. Using neural networks for the diagnosis of localized defects in ball bearings , 1997 .

[11] Kurt Hornik,et al. Multilayer feedforward networks are universal approximators , 1989, Neural Networks.