高维经验模式分解理论及其在设备早期故障诊断中的应用研究

项目名称： 高维经验模式分解理论及其在设备早期故障诊断中的应用研究

项目编号： No.51475339

项目类型： 面上项目

立项/批准年度： 2015

项目学科： 机械、仪表工业

项目作者： 吕勇

作者单位： 武汉科技大学

项目金额： 80万元

中文摘要： 机械设备的早期故障信号通常为淹没在强背景和强噪声中的微弱信号，非线性和非平稳性特征明显，采用传统的方法难以识别和提取。本项目提出了高维经验模式分解（HEMD）理论，通过将一维信号重构到高维相空间中，对高维信号进行HEMD分解，分解成一系列高维固有模态函数，利用吸引子主流识别技术和局部投影算法，将高维信号降为一维信号，在此基础上实现齿轮和轴承早期故障信号的特征提取与故障分类。该项目的研究思路如下：（1）研究多元经验模式分解原理，并将其应用到机械故障诊断领域中。（2）结合相空间重构技术，将多元经验模式分解推广到高维经验模式分解（HEMD），研究HEMD的分解原理，探索计算高维信号局部均值的有效方法。（3）寻求HEMD分解理论中有效抑制端点效应和模态混叠现象的方法，提高HEMD分解的有效性。（4）研究基于HEMD分解的故障特征提取算法和故障分类算法，以期为设备早期故障诊断提供新的方法和技术支撑。

中文关键词： 微弱信号；高维经验模式分解；高维信号；多元经验模式分解；故障诊断

英文摘要： The early fault signals of the mechanical equipment are usually weak signals which are submerged in the strong background signal and strong noise, nonlinear and non-stationary characteristics of the weak signals are obvious, so the traditional methods are difficult to identify and extract them from the collected signals. The High-dimensional Empirical Mode Decomposition (HEMD) algorithm is proposed in this project. One dimensional signal would be reconstructed in the high-dimensional phase space through the phase-space reconstruction method. The high-dimensional signal is decomposed into a series of Intrinsic Mode Function (IMFS) by HEMD. And the attractor mainstream recognition technology and local projection method are used to bring the high-dimensional signal down to the one dimension signal. The gear and bearing fault signal feature extraction and fault classification are researched based on this method. The research ideas are as follows: （1）The multivariate empirical mode decomposition (MEMD) principle is researched and its application to the field of mechanical fault diagnosis. （2）The multiple empirical mode decomposition is promoted to the high-dimensional empirical mode Decomposition (HEMD) by phase-space reconstruction method, researching the HEMD decomposition principle and exploring the effective method of calculating the local average of the high-dimensional signals. （3）The available means of inhibition of endpoint effect and modal aliasing phenomenon in the HEMD decomposition are researched, in order to increase the effectiveness of HEMD decomposition. （4）Research on the fault feature extraction and the fault classification based on decomposition of HEMD , which would provide a new method for early fault diagnosis and technical support of the equipment.

英文关键词： Weak signal;High-dimensional Empirical Mode Decomposition;High-dimensional signal;Multivariate Empirical Mode Decomposition;Fault diagnosis