Use of neuro-fuzzy system to time domain electronic circuits fault diagnosis

D. Grzechca, J. Rutkowski
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引用次数: 9

Abstract

This paper presents a new concept to analog fault diagnosis. Problem of distinguishing between healthy or faulty analog circuit has always been very complicated. The most common approach based on pattern recognition, especially on mean square error measure, can not distinguish all faulty circuits from the healthy one. Normally, the dictionary has to include thousands of patterns and even then, the level of fault detection is not satisfactory. A neural network classifier has been proposed to solve the problem. Its generalization ability allows to reduce the dictionary size significantly. This paper shows how to create a neural dictionary for fault location. Moreover, at the first stage of classification, the fuzzy logic is utilized to transform a measurement vector into a zero-one range. The information from the circuit under test (CUT) has to be as high as it is possible but at the same time the stimuli has to be as simple as possible. The most common AC and DC tests don't give the best solution. Therefore, the time domain testing with pulse stimuli has been utilized. This paper presents a new concept to analog fault diagnosis
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利用神经模糊系统对电子电路进行时域故障诊断
提出了模拟故障诊断的新概念。模拟电路的健康与故障判别一直是一个非常复杂的问题。大多数基于模式识别的方法,特别是基于均方误差测量的方法,无法将所有故障电路与健康电路区分开来。通常,字典必须包含数千种模式,即使这样,故障检测的水平也不能令人满意。提出了一种神经网络分类器来解决这个问题。它的泛化能力允许显著减少字典的大小。本文介绍了如何建立用于故障定位的神经字典。在分类的第一阶段,利用模糊逻辑将测量向量转换为0 - 1范围。来自被测电路(CUT)的信息必须尽可能高,但同时刺激必须尽可能简单。最常见的交流和直流测试并不能给出最好的解决方案。因此,利用脉冲刺激进行时域测试。提出了模拟故障诊断的新概念
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