Enhanced Noise Suppression in Partial Discharge Signals via SVD and VMD with Wavelet Thresholding

IF 0.8 Q3 ENGINEERING, MULTIDISCIPLINARY Modelling and Simulation in Engineering Pub Date : 2024-02-17 DOI:10.1155/2024/5676986

Hailong Wang, Yongliang Yao, Guangdong Zhang, Jidong Pan, Longlong Gao, Hai Jin, Chuang Wang

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Abstract

Partial discharge evaluation is a principal method for assessing insulation conditions in power transformers. Traditional singular value decomposition (SVD) approaches, however, face issues like high residual noise and loss of signal details in white noise suppression. This article introduces an advanced denoising algorithm integrating SVD, variational mode decomposition (VMD), and wavelet thresholding to effectively address mixed noise in on-site power transformer assessments. The algorithm initially employs SVD to suppress mixed noise, specifically targeting narrowband interference by decomposing the noisy signal and nullifying the corresponding singular values. Post-SVD, the signal is further processed through VMD, with its modal components refined via wavelet thresholding. The final reconstruction of these denoised components effectively eliminates white noise. Applied to an input signal with a signal-to-noise ratio of -27.593 dB, the proposed method achieves a postdenoising ratio of 13.654 dB. Comparative analysis indicates its superiority over existing algorithms in mitigating white noise and narrowband interference and more accurately restoring the partial discharge signal.

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通过小波阈值化 SVD 和 VMD 增强对局部放电信号的噪声抑制

局部放电评估是评估电力变压器绝缘状况的一种主要方法。然而，传统的奇异值分解（SVD）方法在抑制白噪声时面临着高残余噪声和信号细节丢失等问题。本文介绍了一种集成了 SVD、变模分解 (VMD) 和小波阈值的高级去噪算法，可有效解决现场电力变压器评估中的混合噪声问题。该算法最初采用 SVD 来抑制混合噪声，特别是通过分解噪声信号并使相应的奇异值无效来消除窄带干扰。SVD 之后，信号通过 VMD 进一步处理，其模态成分通过小波阈值细化。这些去噪分量的最终重建可有效消除白噪声。应用于信噪比为 -27.593 dB 的输入信号时，拟议方法的去噪后信噪比为 13.654 dB。对比分析表明，与现有算法相比，该方法在减少白噪声和窄带干扰以及更准确地恢复部分放电信号方面更具优势。

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来源期刊

Modelling and Simulation in Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

2.70

自引率

3.10%

发文量

审稿时长

18 weeks

期刊介绍： Modelling and Simulation in Engineering aims at providing a forum for the discussion of formalisms, methodologies and simulation tools that are intended to support the new, broader interpretation of Engineering. Competitive pressures of Global Economy have had a profound effect on the manufacturing in Europe, Japan and the USA with much of the production being outsourced. In this context the traditional interpretation of engineering profession linked to the actual manufacturing needs to be broadened to include the integration of outsourced components and the consideration of logistic, economical and human factors in the design of engineering products and services.