基于卷积神经网络和门控循环单元网络的模拟电路双输入故障诊断模型

Tianyu Gao, Jingli Yang, Shouda Jiang, Cheng Yang
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引用次数: 1

摘要

为了提高复杂电气系统的可靠性和安全性,本文提出了一种模拟电路端到端故障诊断方法。首先,将卷积神经网络(CNN)和门控循环单元(GRU)网络相结合,建立了基于CNN-GRU的特征提取模型,从被测电路的信号中获取表征被测电路基本状态的信息。与传统的特征提取方法相比,CNN-GRU模型可以在保留信号时间序列特征的同时获得信号的空间特征。然后,为CNN-GRU模型设计了时域和频域双输入结构,利用基于CNN-GRU的双输入故障诊断模型获得信号的时频融合特征,从而充分反映电路状态。采用ISCAS'97电路集中的Sallen-Key带通滤波电路对该方法进行了综合评价。实验结果表明,所提出的故障诊断方法能够实现对早期单故障类和双故障类的准确识别。
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A Dual-input Fault Diagnosis Model Based on Convolutional Neural Networks and Gated Recurrent Unit Networks for Analog Circuits
To improve the reliability and safety of complex electrical systems, an end-to-end fault diagnosis method for analog circuits is proposed in this paper. First, by combining the convolutional neural networks (CNN) and the gated recurrent unit (GRU) networks, a feature extraction model based on CNN-GRU is developed to obtain information that characterizes the essential states of the circuit under test (CUT) from the its signals. Compared with traditional feature extraction methods, the CNN-GRU model can obtain the spatial features of signals while retaining the time sequence features. Then, a dual-input structure of the time domain and frequency domain is designed for the CNN-GRU model, and the time-frequency domain fusion features of the signals are obtained by using the dual-input fault diagnosis model based on CNN-GRU, thereby fully reflecting the circuit states. The Sallen-Key bandpass filter circuit in ISCAS'97 circuit set is adopted to comprehensively evaluate the proposed method. Experimental results prove that the proposed fault diagnosis method can implement the accurate identification for incipient single fault classes and double fault classes.
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