Abstract
Analog circuit fault diagnosis technology is widely used in the diagnosis of various electronic devices. The basic strategy is to extract circuit fault characteristics and then to use a clustering algorithm for diagnosis. The discrete Volterra series (DVS) is a common feature extraction method; however, it is difficult to calculate its parameters. To solve the problem of feature extraction in fault diagnosis, we propose an improved hierarchical Levenberg–Marquardt (LM)–DVS algorithm (IDVS). First, the DVS is simplified on the basis of the hierarchical symmetry of the memory parameters, the LM strategy is used to optimize the coefficients, and a Bayesian information criterion based on the symmetry of entropy is introduced for order selection. Finally, we propose a fault diagnosis method by combining the improved DVS algorithm and a condensed nearest neighbor algorithm (CNN) (i.e., the IDVS–CNN method). A simulation experiment was conducted to verify the feature extraction and fault diagnosis ability of the IDVS–CNN. The results show that the proposed method outperforms conventional methods in terms of the macro and micro F1 scores (0.903 and 0.894, respectively), which is conducive to the efficient application of fault diagnosis. In conclusion, the improved method in this study is helpful to simplify the calculation of the DVS parameters of circuit faults in analog electronic systems, and provides new insights for the prospective application of circuit fault diagnosis, system modeling, and pattern recognition.
Highlights
The diagnosis of circuit faults involves determining whether the circuit is working properly and identifying the location of fault components through the collected signals
To overcome the difficulty in calculating the discrete Volterra series (DVS) parameters for analog circuit fault diagnosis, we developed an efficient fault diagnosis algorithm based on the improved hierarchical Levenberg–Marquardt (LM)–DVS algorithm (IDVS)–condensed nearest neighbor algorithm (CNN)
The analog circuit fault diagnosis was realized by combining IDVS with the CNN algorithm
Summary
The diagnosis of circuit faults involves determining whether the circuit is working properly and identifying the location of fault components through the collected signals. It has been widely applied and studied in the fields of household appliances, medical electronic equipment, and automobile electronic equipment. In the process of analog circuit fault diagnosis, the collected circuit fault samples are typically processed in two steps: (1) Extracting the features, and (2) clustering the samples. With a linear increase in the order of the DVS, the number of parameters increases exponentially. With the increase in the DVS order and cumulative layers, the structure complexity increases, making it even more difficult to calculate the DVS parameters.
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