基于灰盒神经网络识别模型的故障诊断

ICCAS 2010 Pub Date : 2010-12-17 DOI:10.1109/ICCAS.2010.5670320

Cen Zhaohui, Wei Jiao-long, Jiang Rui

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引用次数: 3

摘要

提出了一种基于灰盒神经网络模型的非线性动态系统故障诊断方案。在该GBNNM中，提出了一种包含多层感知(MLP)神经网络(NN)和整数项的复合结构来逼近目标系统的非线性和动态。然后从理论上证明了它的逼近能力。在神经网络训练中引入自定义激励策略，提高了神经网络的泛化能力。与以往基于神经网络模型的故障诊断方法不同，从系统输出和GBNNM模型输出中获得的定量残差可以准确地指出故障引起的不一致，因此改进的残差对我们的方案来说不是必需的。本文以卫星姿态控制系统(SACS)中的高保真反作用轮(RW)为例进行了研究。实例研究结果表明了FD方案的有效性和优越性。

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Fault diagnosis based on Grey-box Neural Network identification model

This paper presents a fault diagnosis (FD) scheme for a class of nonlinear dynamic systems using a novel Grey-Box Neural Network Model (GBNNM). In this GBNNM, a composite structure, including MLP (multi-layer perception) NN (Neural Network) and integer term, is proposed to approximate both nonlinearity and dynamics of object system. Its approximation ability is then proved theoretically. And a self-defined exciting strategy is introduced into NN training to improve NN's generalization ability. Unlike previous NN model based fault diagnosis methods, a quantitative residual, which is obtained from system output and its GBNNM model output, can accurately indicates inconsistency caused by fault, so the improved residual is not essential for our scheme. The proposed FD scheme is applied in a high-fidelity Reaction Wheel (RW) in Satellite Attitude Control System (SACS) in our case study. The results of the case study demonstrate the effectiveness and superiority of our FD scheme.

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ICCAS 2010

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