基于模型的CICA及其在滚动轴承故障诊断中的应用

由独立成分分析(ICA)的顺序不确定性带来的源数估计和对传感器个数的估计问题使得ICA在机械故障诊断中的广泛应用受到了限制,而约束独立成分分析(CICA)充分利用了设备的先验知识作为ICA的约束条件,可以使ICA算法收敛到感兴趣的故障信号。本文提出了一种基于滚动轴承模型的约束独立成分分析(CICA)方法,该方法可以从传感器信号中快速诊断出设备是否发生了滚动轴承故障,并用仿真和实验验证了该方法在滚动轴承故障诊断中的有效性。

基于cICA的旋转机械变速过程滚动轴承故障特征提取

在ICA基础上发展起来的约束独立分量分析(cICA)方法,可根据一定的先验知识生成参考信号以提取选定的独立分量,解决了原ICA算法的次序不确定性问题。将cICA用于滚动轴承故障诊断,能够根据被监测滚动轴承的特征频率等先验信息建立参考信号并实现对其故障振动特征信号的提取。本文将该方法与针对旋转机械变速过程的阶比跟踪技术和滚动轴承包络分析技术相结合,提出了基于cICA的旋转机械变速工作过程滚动轴承早期故障分析方法。该方法首先通过包络提取技术在共振带获得包含故障信息的包络信号,再通过阶比分析中的等角度采样将包络信号转换到角域,在角域建立参考信号,并用cICA实现旋转机械变速过程下滚动轴承故障对应冲击性信号成分的有效提取。仿真和测试试验表明,所提出方法适合于旋转机械升降速等变速过程中的滚动轴承初期故障特征信息提取。

基于WT特征增强的cICA带式输送机齿轮箱故障诊断

约束独立分量分析对于测量信号中的传感器噪声(测量噪声)具有很强的免疫能力,但对源噪声的免疫性却很差。针对这个问题,提出了小波变换特征增强的约束独立分量分析的齿轮箱故障特征提取方法。通过对测量信号小波分解,有针对性地选择某子频段小波系数重构,有利于提高信噪比,增强信号的统计独立性和非高斯性,从而增强约束独立分量分析方法提取齿轮故障特征的效果;而未经小波变换除噪时,约束独立分量分析的效果不佳。通过仿真分析和在矿用带式输送机齿轮箱故障诊断的应用结果综合表明,该方法能有效降低源噪声的影响,准确提取出齿轮故障特征,尤其是微弱低频故障特征。为矿用齿轮箱多通道振动状态监测与故障诊断提供了一种新的有效手段和途径。

基于WT与cICA的齿轮箱低频故障特征提取

齿轮箱低频故障信号易受到高频振动及强噪声等因素的干扰,测量信号中隐藏的有效低频故障特征比较微弱,再考虑到源噪声的影响,则约束独立分量分析直接提取低频故障特征的效果很差。为此提出了基于小波变换与约束独立分量分析的齿轮箱低频故障特征提取方法,通过对测量信号的小波多分辨率分解,有针对性地选择小波系数重构,提高了信噪比和非高斯性,从而增强了约束独立分量分析方法提取齿轮箱低频故障特征的效果。而未经小波变换除噪时,约束独立分量分析的效果不佳。断齿与局部断齿的低频故障特征提取试验结果表明,提出的方法能有效降低高频振动及源噪声等因素的干扰,提取出齿轮箱的低频故障特征,尤其是微弱低频故障特征,为齿轮箱低频故障特征提取与故障诊断提供了一种有效方法。

新CICA一单元ICA-R固定点算法

一单元参考独立成分分析是一种有效地利用先验信息抽取一个期望源信号的方法。针对基于峭度的快速算法抽取正确率较低的缺点,在两种常用近似性量度下对快速算法进行了理论分析,指出该方法抽取正确率低的原因,通过避免不等式约束失效的方法,基于新CICA提出了一种一单元ICA-R固定点算法。大量计算机模拟实验表明所提算法抽取性能和快速算法相当,但具有更快的收敛速度和更高的抽取正确率。

CICA-EMD方法在转子复合故障中的研究

提出了一种约束独立分量分析(constrained independent component analysis,简称CICA)与EMD(Empirical Mode Decomposition,简称EMD)方法应用转子复合故障分析,首先利用相空间重构获得多维信号,然后对其进行EMD方法获得转子复合故障信号的EMD重构信号,然后根据转子复合故障中某一故障的特征信息构建参考信号,再用CICA方法提取复合故障的各自故障成分,从而获取转子复合故障的各自故障特征信息,从而判定转子复合故障。将此方法应用于转子试验台复合故障信号分析,成功的获取了转子复合故障,验证了此方法的有效性。

Improved CICA Algorithm Used for Single Channel Compound Fault Diagnosis of Rolling Bearings

A Compound fault signal usually contains multiple characteristic signals and strong confusion noise, which makes it difficult to separate week fault signals from them through conventional ways, such as FFT-based envelope detection, wavelet transform or empirical mode decomposition individually. In order to realize single channel compound fault diagnosis of bearings and improve the diagnosis accuracy, an improved CICA algorithm named constrained independent component analysis based on the energy method （E-CICA） is proposed. With the approach, the single channel vibration signal is firstly decomposed into several wavelet coefficients by discrete wavelet transform（DWT） method for the purpose of obtaining multichannel signals. Then the envelope signals of the reconstructed wavelet coefficients are selected as the input of E-CICA algorithm, which fulfills the requirements that the number of sensors is greater than or equal to that of the source signals and makes it more suitable to be processed by CICA strategy. The frequency energy ratio（ER） of each wavelet reconstructed signal to the total energy of the given synchronous signal is calculated, and then the synchronous signal with maximum ER value is set as the reference signal accordingly. By this way, the reference signal contains a priori knowledge of fault source signal and the influence on fault signal extraction accuracy which is caused by the initial phase angle and the duty ratio of the reference signal in the traditional CICA algorithm is avoided. Experimental results show that E-CICA algorithm can effectively separate out the outer-race defect and the rollers defect from the single channel compound fault and fulfill the needs of compound fault diagnosis of rolling bearings, and the running time is 0.12% of that of the traditional CICA algorithm and the extraction accuracy is 1.4 times of that of CICA as well. The proposed research provides a new method to separate single channel compound fault signals.

基于EMD和CICA的单通道盲源分离方法用于齿轮箱混合故障诊断研究

针对传统的独立分量分析难以解决齿轮箱混合故障诊断中存在的欠定盲分离问题,提出了基于EMD和CICA(约束独立分量分析)的单通道盲源分离方法。通过单通道加速度传感器采集齿轮箱混合故障信号,对其进行EMD分解以实现降噪及单通道扩展,采用基于白噪声统计特性和峭度值结合的方法选取有效的IMF分量,将其作为盲源分离的输入信号,通过CICA方法提取目标振动信号,识别故障特征。通过对齿轮箱轴承与齿轮混合故障的仿真及实验研究,验证了该方法的有效性和可行性。

VMD和CICA在齿轮箱故障诊断中的应用

针对齿轮箱故障信号微弱且易受周围噪声影响的问题,提出了一种基于变分模态分解(variational mode decomposition,VMD)的约束独立分量分析(constrained independent component analysis,CICA)算法。利用单通道加速度传感器采集齿轮箱的混合故障信号,通过VMD算法将混合信号分解为多个不同的本征模态函数(intrinsic mode function,IMF),然后依据峭度和互相关系数选取有效的IMF分量进行重构信号,对于重构信号利用CICA进行降噪处理,根据CICA降噪后得到齿轮和轴承的故障特征,对齿轮和轴承混合故障进行仿真及实验研究,结果表明,VMD-CICA算法可以很好地提取齿轮和轴承的故障特征频率,同时与经验模态分解-约束独立分量分析(EMD-CICA)和集成经验模态分解-约束独立分量分析(EEMD-CICA)算法相比得到的故障特征频率更明显。

A Machine Learning Approach for Artifact Removal from Brain Signal

Electroencephalography(EEG),helps to analyze the neuronal activity of a human brain in the form of electrical signals with high temporal resolution in the millisecond range.To extract clean clinical information from EEG signals,it is essential to remove unwanted artifacts that are due to different causes including at the time of acquisition.In this piece of work,the authors considered the EEG signal contaminated with Electrocardiogram(ECG)artifacts that occurs mostly in cardiac patients.The clean EEG is taken from the openly available Mendeley database whereas the ECG signal is collected from the Physionet database to create artifacts in the EEG signal and verify the proposed algorithm.Being the artifactual signal is non-linear and non-stationary the Random Vector Functional Link Network(RVFLN)model is used in this case.The Machine Learning approach has taken a leading role in every field of current research and RVFLN is one of them.For the proof of adaptive nature,the model is designed with EEG as a reference and artifactual EEG as input.The peaks of ECG signals are evaluated for artifact estimation as the amplitude is higher than the EEG signal.To vary the weight and reduce the error,an exponentially weighted Recursive Least Square(RLS)algorithm is used to design the adaptive filter with the novel RVFLN model.The random vectors are considered in this model with a radial basis function to satisfy the required signal experimentation.It is found that the result is excellent in terms of Mean Square Error(MSE),Normalized Mean Square Error(NMSE),Relative Error(RE),Gain in Signal to Artifact Ratio(GSAR),Signal Noise Ratio(SNR),Information Quantity(IQ),and Improvement in Normalized Power Spectrum(INPS).Also,the proposed method is compared with the earlier methods to show its efficacy.

基于约束独立分量分析的矿用齿轮故障诊断研究

针对矿用齿轮传动故障信号较弱,极易被其他振动信号所淹没,使得已有诊断方法在矿用齿轮故障诊断中的应用受到限制,难以提取出齿轮故障特征信息的问题。将约束独立分量分析(CICA)这一理论方法应用于矿用齿轮振动故障诊断,通过对齿轮传动振动的分析,建立齿轮振动约束独立分量分析(CICA)参考信号,用于提取齿轮振动信号中的故障信息(即独立分量)。研究实例表明,应用约束独立分量分析(CICA)方法,能有效提取出矿用提升机齿轮减速箱中齿轮的故障,为矿用齿轮传动振动故障诊断提供一条新途径。

约束独立成分分析模型及其算法综述

约束独立成分分析(Constrained Independent Component Analysis,CICA)是在独立成分分析(Independent Component Analysis,ICA)基础上,发展起来的一类信号分离(提取)技术。CICA充分利用源信号的先验信息,从而有效地解决ICA应用中出现的不确定性、计算量大和内存空间浪费等问题。首先,简述了CICA的基本模型以及源信号较普遍的先验信息:非负性、稀疏性和时间结构;然后,重点介绍了基于每一种先验信息的CICA算法,并总结了CICA模型的应用;最后,展望CICA模型的未来改进方向。

约束独立分量分析在无线通信信号分离中的应用

无线通信信号的调制方式识别是复杂电磁环境下频谱检测和频率控制的重要研究目标,为了实现频谱共存条件下调制信号的模式识别,通过利用范围区间和灵敏度参数构造参考信号,提出了一种带参考信号约束的独立分量分析(CICA)算法进行无线通信信号分离,实验仿真表明CICA算法能够很好地分离出感兴趣的信号,在0dB信噪比下分离信号和源信号的相似系数高于60%,与传统ICA方法相比,分离效果有了明显的提升。

基于约束独立成分分析的轴承复合故障特征提取方法

为从复合故障信号中提取各故障特征,提出一种离散小波变换(DWT)和约束独立成分分析(CICA)相结合的单通道复合故障诊断方法。首先通过DWT方法将单通道振动信号进行小波分解后,利用小波重构函数重构各层分解信号。然后取重构信号的包络信号作为CICA算法的输入矩阵,基于滚动轴承先验知识建立参考信号,从而分离出轴承各故障信号,提取故障特征。最后,在滚动轴承故障模拟实验台上进行了方法验证。结果表明:该方法可有效分离滚动轴承外圈和滚动体故障,实现了轴承复合故障的诊断。

约束独立分量分析及其在脑电信号伪差分离中的应用

独立分量分析(ICA)算法是一种运用统计方法,从一系列标准信号中提取独立成分的技术。由于脑电信号是由若干相对独立的成分组成,所以运用ICA算法来处理脑电信号受到广泛关注。本文介绍了一种新型的约束独立分量分析(cICA)算法,它能解决FastICA算法在源信号分离时输出排列无序性的问题。并通过实验表明,它在脑电伪差分离时可减少人工处理的影响,且具有良好的稳健性与较快的收敛速度。