共查询到18条相似文献,搜索用时 125 毫秒
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基于小波神经网络的滚动轴承故障诊断 总被引:2,自引:2,他引:0
根据滚动轴承振动信号的频域变化特征,利用小波分析对其建立频域特征向量,准确地提取了故障的特征信息,结合RBF神经网络训练速度快的优点,将RBF神经网络应用于轴承故障特征的选择,并利用所确定的特征及RBF分类器进行故障诊断。实验结果表明,该方法可实现滚动轴承故障的可靠诊断。 相似文献
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基于拉普拉斯分值和模糊C均值聚类的滚动轴承故障诊断 总被引:1,自引:0,他引:1
针对滚动轴承故障振动信号的非平稳特征和故障征兆的模糊性,提出了基于拉普拉斯分值和模糊C均值(FCM)聚类的滚动轴承故障诊断方法。该方法首先在时域和频域对滚动轴承振动信号进行特征提取,组成初始特征向量;然后利用拉普拉斯分值进行特征选择,形成故障特征向量;最后以FCM聚类为故障分类器,实现滚动轴承不同故障类型的识别。应用实例和对比实验表明,该方法能有效提取滚动轴承振动信号特征,诊断滚动轴承故障。 相似文献
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实际工况中滚动轴承故障的振动信号为非线性,非平稳的信号。为了对滚动轴承的故障做出准确识别,根据轴承故障信号的特点,在此提出一种用全矢谱和EEMD相结合来提取故障特征指标,然后利用隐马尔科夫模型对滚动轴承故障进行分类的新方法。首先对实验得到的滚动轴承同源双通道振动信号进行EEMD分解,得到数个IMF分量,选取相关性较高的分量进行全矢融合。然后提取与故障类型相对应的故障特征频率下的幅值作为滚动轴承故障分类的指标,并利用HMM方法进行训练和识别,从而区分出不同的故障类型。最后,利用实验得到的轴承故障信号进行测试,实验结果表明,该方法可以对滚动轴承故障做出较为准确的识别。 相似文献
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针对滚动轴承发生故障时,振动信号的时域和频域特征都会发生变化的特点,提出了基于集合经验模态分解(EEMD)、改进果蝇优化算法(MFFOA)和支持向量机(SVM)的滚动轴承故障诊断方法。该方法主要是利用EEMD方法对故障信号进行分解,并计算各IMF分量的均方根值和重心频率,以此进行归一化处理得到特征向量。为了提高诊断精度,采用果蝇优化算法优化SVM参数,建立MFFOA-SVM模型,然后对提取的特征向量进行训练与测试,从而识别故障与否及发生点蚀故障的程度。利用该方法对实测信号进行分析与诊断,并与遗传算法的优化结果进行对比,验证了该方法的有效性,说明其具有良好的应用前景。 相似文献
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基于变量预测模型的模式识别方法可以充分利用从原始数据中所提取的特征值之间的相互内在关系建立数学模型并以预测误差平方和值最小为判别函数进行分类。基于此,提出了一种新的一类分类方法--单类基于变量预测模型的模式识别(OC-VPMCD)方法,将该方法与本征时间尺度分解(ITD)方法相结合并应用于滚动轴承故障诊断。首先采用ITD对滚动轴承振动信号进行分解并对包含主要故障信息的若干固有旋转(PR)分量提取排列熵作为故障特征值;然后对OC-VPMCD分类器进行训练,并确定预测误差平方和阈值;最后进行OC-VPMCD模式识别,根据模式识别结果判断滚动轴承的工作状态正常与否。实验数据分析结果表明,该方法能够有效地应用于滚动轴承振动信号的故障诊断。 相似文献
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基于双时域微弱故障特征增强的轴承早期故障智能识别* 总被引:1,自引:0,他引:1
针对轴承早期微弱故障难以准确识别的问题,提出一种基于双时域微弱故障特征增强的轴承早期故障智能识别方法。利用广义S变换和Fourier逆变换推导出一种双时域变换,将轴承振动信号变换为双时域二维时间序列。根据双时域变换的能量分布特点,提取二维时间序列的主对角元素以构建故障特征增强的时域振动信号。仿真信号和轴承故障信号分析验证了双时域微弱故障特征增强的可行性和有效性。采用脉冲耦合神经网络和支持向量机对增强后的轴承信号进行时频特征参数提取和智能识别,平均识别精度达到了95.4%。试验结果表明所提方法能有效提高轴承早期故障的智能识别精度。 相似文献
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滚动轴承故障特征信息的自动提取方法研究 总被引:4,自引:2,他引:4
提出基于小波包分析和包络检测的滚动轴承故障特征信息的自动提取力法。根据滚动轴承的故障冲击能激起轴承座或其他机械零部件产生共振的特性,对轴承振动信号进行快速傅里叶变换FFT分析,在频谱图中自动识别高频共振频带。然后利用小波包分析可以在全频带内把信号分解到相邻的不同频带上的特性,对滚动轴承的振动信号进行小波包分解,自动提取共振频带上的信号并进行重构。最后,对重构后的信号进行包络检波,实现滚动轴承故障特征信息的自动提取。通过对实际滚动轴承振动信号的分析,发现这种方法能非常有效地检测和诊断滚动轴承的故障. 相似文献
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针对旋转机械故障诊断问题,提出了一种基于解析模态分解(AMD)的旋转机械故障诊断方法。只要知道信号的频率成分,AMD方法就可以将含不同频率成分的信号分解为单频率信号,尤其能够分解有紧密间隔频率成分的信号。对于可预知故障特征频率的旋转机械的故障诊断,可利用AMD方法提取机械振动信号中故障特征频率所在频段的信号,并求该段信号的频谱,若频谱中含有故障特征频率,则说明机械振动信号中存在该故障。通过对滚动轴承故障信号和转子不对中故障信号的分析以及和经验模态分解(EMD)方法的对比,证明了AMD方法的有效性,且AMD方法比EMD方法更快速、准确。 相似文献
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Condition monitoring and fault diagnosis of rolling element bearings timely and accurately are very important to ensure the reliability of rotating machinery. This paper presents a novel pattern classification approach for bearings diagnostics, which combines the higher order spectra analysis features and support vector machine classifier. The use of non-linear features motivated by the higher order spectra has been reported to be a promising approach to analyze the non-linear and non-Gaussian characteristics of the mechanical vibration signals. The vibration bi-spectrum (third order spectrum) patterns are extracted as the feature vectors presenting different bearing faults. The extracted bi-spectrum features are subjected to principal component analysis for dimensionality reduction. These principal components were fed to support vector machine to distinguish four kinds of bearing faults covering different levels of severity for each fault type, which were measured in the experimental test bench running under different working conditions. In order to find the optimal parameters for the multi-class support vector machine model, a grid-search method in combination with 10-fold cross-validation has been used. Based on the correct classification of bearing patterns in the test set, in each fold the performance measures are computed. The average of these performance measures is computed to report the overall performance of the support vector machine classifier. In addition, in fault detection problems, the performance of a detection algorithm usually depends on the trade-off between robustness and sensitivity. The sensitivity and robustness of the proposed method are explored by running a series of experiments. A receiver operating characteristic (ROC) curve made the results more convincing. The results indicated that the proposed method can reliably identify different fault patterns of rolling element bearings based on vibration signals. 相似文献
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Zhiwu Shang Xiangxiang Liao Rui Geng Maosheng Gao Xia Liu 《Journal of Mechanical Science and Technology》2018,32(11):5139-5145
A method based on the theory of deep learning and feature extraction and a fault diagnosis model of a rolling bearing based on deep belief network are proposed in this study considering the complex, nonlinear, and non-stationary vibration signal of the rolling bearing. To some extent, the method avoids the complex structure of deep neural network and can be easily trained. Experimental results show that the recognition rate of the method reaches 100 %. The method can identify various types of faults accurately and has good fault diagnosis capability, which can provide the convenience for maintenance. 相似文献