Affiliation:
1. Nanchang HangKong University
Abstract
Abstract
Support Vector Machine (SVM) is a widely used machine learning method in analog circuits fault diagnosis. However, SVM parameters such as kernel parameters and penalty parameter can seriously affect the classification accuracy. The current parameter optimization methods have some defects, such as low convergence speed, easy to fall into local optimal solution and premature convergence. In view of this, an improved grey wolf optimization algorithm (GWO) based on nonlinear control parameter strategy, the first Kepler’ law strategy and chaotic search strategy (NKCGWO) is proposed to overcome the shortcoming of the traditional optimization methods in this paper. In NKCGWO method, three strategies are developed to improve the performance of GWO. Thereafter, the optimal parameters of SVM are obtained using NKCGWO-SVM. To evaluate the performance of NKCGWO-SVM for analog circuits diagnosis, two analog circuits are employed to fault diagnosis. The proposed method is compared with GA-SVM, PSO-SVM and GWO-SVM. The experimental results show that the proposed method has higher diagnosis accuracy than the other compared methods for analog circuits diagnosis.
Publisher
Research Square Platform LLC
Reference37 articles.
1. Capturing high-discriminative fault features for electronics-rich analog system via deep learning;Liu ZB;IEEE Transactions on Industrial Informatics,2017
2. Diagnostics of Filtered Analog Circuits with Tolerance Based on LS-SVM Using Frequency Features;Long B;Journal of Electronic Testing,2012
3. A method for parametric and catastrophic fault diagnosis of analog linear circuits;Michal T;Ieee Access : Practical Innovations, Open Solutions,2022
4. Bandler, J. W., & Salama, A. E. (1985). Fault diagnostic of analog circuits. Proceedings of the IEEE, 20(2), 1279–1325
5. Linear circuit fault diagnosis using neuromorphic analyzers;Spina R;IEEE Transactions on Circuits and Systems part II: Express briefs,1997