Estimation of the Hydrophobicity of a Composite Insulator Based on an Improved Probabilistic Neural Network

The estimation of hydrophobicity for composite insulators is of great importance for the purpose of predicting the surface degradation. The hydrophobic image is firstly decomposed by the 2-level wavelet, along with the multi-Retinex algorithm in this paper. The processed low frequency sub-band and h...

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Bibliographic Details
Published in:Energies (Basel) 2018-09, Vol.11 (9), p.2459
Main Authors: Sun, Qiuqin, Lin, Fei, Yan, Weitao, Wang, Feng, Chen, She, Zhong, Lipeng
Format: Article
Language:English
Subjects:
composite insulator
Horizontal orientation
Hydrophobicity
Image processing
Insulators
Neural networks
Pretreatment
probability neural network
Shape factor
Water drops
water-droplet profile
Wavelet analysis
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Summary:The estimation of hydrophobicity for composite insulators is of great importance for the purpose of predicting the surface degradation. The hydrophobic image is firstly decomposed by the 2-level wavelet, along with the multi-Retinex algorithm in this paper. The processed low frequency sub-band and high frequency sub-band images are then reconstructed. The 3 × 3 Sobel operator is performed to measure the basic spatial gradient in four directions, including the horizontal direction, the diagonal direction, and then the vertical direction. The shape factor, the area ratio of the largest water droplet, and the coverage rate of the water droplet are selected as the feature parameters and input into the classification network that has been trained to do the hydrophobic level recognition. The effect of the different expansion speed on the desired learning results is discussed. The threshold plays a key role in image processing. Considering that the difference between the water droplet edge and the composite insulator surface is relatively small, the asymptotic semi-soft threshold function is used in pretreatment, whereas the adaptive two-dimensional Otsu’s method is used in image segmentation. The experimental results show that the proposed method has high recognition accuracy up to 94.8% for a diversity of images, and it is superior to the improved Shape Factor Method, the Multi-fractal Method, and the RBF Neural Network.
ISSN:1996-1073
1996-1073
DOI:10.3390/en11092459