Method for extracting modal parameter from viscous damping vibration signals

A vibration signal, viscous damping technology, applied in electrical digital data processing, special data processing applications, instruments, etc., can solve problems such as large modal parameter errors

Active Publication Date: 2014-12-10
NINGBO UNIV
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Problems solved by technology

The complex exponential method is simple to calculate, requires less data, and has high extraction accuracy when the noise of the vibration signal is low, but this method will no longer be applicable as the noise increases, so in practical applications, the vibration signal needs to be analyzed in advance. Eliminate the noise, and then use the complex exponential method to extract the modal parameters. However, if the prior noise elimination effect is not good, the error of the modal parameters extracted by the complex exponential method will be large.

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  • Method for extracting modal parameter from viscous damping vibration signals
  • Method for extracting modal parameter from viscous damping vibration signals
  • Method for extracting modal parameter from viscous damping vibration signals

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Embodiment 1

[0038] A method for extracting modal parameters in a viscous damped vibration signal proposed in this embodiment, which introduces a sparse optimization algorithm on the basis of the complex exponential method to eliminate false modes, and the processing process is as follows: continuous viscous damped vibration signal Nyquist uniform sampling to obtain the sampling signal, using the sampled values ​​in the sampling signal to construct a high-order autoregressive matrix, to find the autoregressive coefficient; according to the method theory of the complex exponential method, on the basis of the autoregressive coefficient to find Including the natural frequency vector and natural damping ratio vector of the false mode and the projection equation of the signal on the new base, the projection coefficient is the mode shape coefficient; the sparse optimization solution is performed on the projection equation of the signal on the new base to obtain the mode shape coefficient The spar...

Embodiment 2

[0062] The process from step ① to step ④ of the modal parameter extraction method proposed in this embodiment is the same as the process from step ① to step ④ of the modal parameter extraction method proposed in the first embodiment, the only difference is that after step ① is executed Before performing step ②, carry out preprocessing on x. The preprocessing process is: carry out mean value processing on x to remove the DC component in x, that is, subtract the mean value of x from each sampling value of x, so that after mean value processing The mean value of the obtained signal is 0, and the signal obtained after de-meaning processing is denoted as x 0 ; then let x=x 0 , where x=x 0 The "=" in is an assignment symbol.

[0063] In order to more effectively illustrate the effectiveness and feasibility of the method of the present invention, experimental verification is carried out.

[0064] Assuming there is a continuous viscous damped vibration signal without noise, its exp...

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Abstract

The invention discloses a method for extracting a modal parameter from viscous damping vibration signals. The method for extracting the modal parameter from the viscous damping vibration signals comprises the steps that firstly, Nyquist uniform sampling is conducted on the vibration signals; secondly, an autoregression matrix equation is established through sampled signals, the least square solution of the autoregression coefficient vector of the autoregression matrix equation is worked out, a Prony polynomial is established with all the elements of the least square solution as coefficients, and the polynomial is solved so that the solution vector of variables can be obtained; thirdly, the solution vector is corrected, and an inherent frequency vector containing a false modality and an inhehrent damping ratio vector are worked out according to the corrected solution vector; fourthly, a matrix is established with the corrected solution vector as the basis, sparse optimization solution is conducted on the projection equation on the matrix through the sampled signals, and then a sparse vector is obtained; finally, the false modality is removed through the sparse vector, wherein all the nonzero elements in the sparse vector are vibration mode coefficients. The method for extracting the modal parameter from the viscous damping vibration signals has the advantages that the noise immunity is high, and the extracted modal parameter is high in precision and high in stability.

Description

technical field [0001] The invention relates to a vibration signal processing technology, in particular to a method for extracting modal parameters in viscous damping vibration signals. Background technique [0002] The modal analysis in the vibration signal has important application value in the fields of structural dynamic characteristic analysis, health monitoring, and structural flaw detection. Among them, the extraction of modal parameters is in a basic position. How to accurately extract modal parameters has always been a concern of scholars. . There are currently many modal parameter extraction methods. For the modal parameter extraction in viscous damped vibration signals, the most simple, convenient, and widely used method is the single-input single-output (SISO) method, and the representative one is the complex exponential (CE) method. , many methods are based on the complex exponential method. The complex exponential method is simple to calculate, requires less ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
Inventor 李仙果周宇叶庆卫王晓东
Owner NINGBO UNIV
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