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A noise suppression method and device based on Gaussian distribution weighting

A noise suppression, Gaussian distribution technology, applied in transmission noise suppression, speech analysis, noise reduction, etc., can solve the problems of the hydroelectric unit vibration protection system not fully put into use, impact interference, noise interference, etc., to achieve easy, Good effect, simple algorithm effect

Active Publication Date: 2018-05-04
STATE GRID CORP OF CHINA +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Aiming at the noise interference or even impact interference that occurs during the signal acquisition process in the field of hydroelectric unit condition monitoring, there has not been a good solution for a long time, resulting in a series of problems such as the failure of the vibration protection system of the hydroelectric unit to be fully put into use.

Method used

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  • A noise suppression method and device based on Gaussian distribution weighting
  • A noise suppression method and device based on Gaussian distribution weighting
  • A noise suppression method and device based on Gaussian distribution weighting

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Embodiment

[0130] In order to describe the features and working principle of the present invention more intuitively, a practical application scenario will be described below.

[0131] Such as Figure 4 Shown is the graph of the relationship between the local radius and the mean square error. In this embodiment, the local area radius with the smallest mean square error of the simulated signal is selected as the optimal local area radius. In this embodiment, the optimal local area radius is 5.

[0132] Such as Figure 5 Shown is the noise-free signal waveform diagram of this embodiment. Such as Image 6 Shown is the noise-containing signal waveform diagram of this embodiment. Such as Figure 7 Shown is the signal waveform diagram after denoising in this embodiment. exist Figure 5 In , the signal named "bumps" without noise. After operation, add normally distributed noise and impact noise to the bumps signal, and compare Figure 5 with Image 6 It is found that the waveform of t...

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Abstract

The invention relates to a noise suppression method and a noise suppression device based on Gaussian distribution weighting. The noise suppression method comprises the steps of determining the local radius of a filter; determining a window length of the filter according to the local radius of the filter, and determining discrete signals in the window of the filter; determining corresponding mean values and variances according to the discrete signals in the window of the filter; determining a Gaussian function of the discrete signals in the window of the filter by using the mean values and the variances; determining the corresponding Gaussian function value of each discrete signal in the window of the filter by using the Gaussian function, and performing summation of the obtained Gaussian function values; determining the corresponding weighted value of each discrete signal in the window of the filter by using the corresponding Gaussian function value of each discrete signal in the window of the filter and the sum of the Gaussian function values; and performing noise suppression treatment on the discrete signals at the center of the window by using the weighted values by the filter.

Description

technical field [0001] The invention relates to the technical field of noise processing, in particular to a noise suppression method and device based on Gaussian distribution weighting. Background technique [0002] Signal filtering technology is the core research topic in the field of signal processing. Signal filtering methods are divided into linear filtering and nonlinear filtering. In the early digital signal and image signal processing and research, linear filtering technology is the main means of suppressing noise, mainly because the linear filtering method has an appropriate mathematical expression and is easy to design and implement. When linear filtering techniques are applied to non-superimposed noise signals, the results are often unsatisfactory. Signals are inevitably subject to varying degrees of noise interference during the acquisition and transmission process, and sometimes even shock signals are generated. At this point, the signal needs to be properly p...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04B15/00G10L19/26G10L21/0208
CPCG10L19/26G10L21/0208H04B15/005
Inventor 张飞樊玉林周喜军秦俊刘仁
Owner STATE GRID CORP OF CHINA
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