Edge Detection of Image Using Image Divergence and Downsampling Method

Автор: Kishore Kumar Dhar, Asish Mitra, Paritosh Bhattacharya

Журнал: International Journal of Engineering and Manufacturing @ijem

Статья в выпуске: 3 vol.12, 2022 года.

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Classically, the points where digital image brightness transforms rapidly are ordered into a group of curved line segments termed as edges. Edge detection is an important feature and tool in digital image processing to analyze the significant changes in gray level image intensity. In this paper, an edge detection method is proposed. In the proposed method divergent operation is applied to the image to compute the Laplacian of the image. After then the sample rate of Laplacian of image is decreased by downsampling. A threshold value is yielded by computing the mean on the down sample value. Laplacian of image and threshold value is compared and pixel values are set according to the threshold value. Then the morphological operation is performed on the processed image to produce the final edge detection image. The significance and value of this research are reducing image noise by downsampling and searching vital edge information through divergence operation. The present study introduces a new method of edge detection. The finding of this research work is to detect the edges of objects. The proposed method is compared with other existing edge detection methods i.e., Canny, Sobel, Robert, Zero cross, and Frei-Chen. Quantitative evaluation is performed through various metrics i.e., Entropy, Edge-based contrast measure (EBCM), F-Measure, and Performance ratio. Experimental results obtained from MATLAB 2018a show that the proposed method performs better than other well-known edge detection methods.

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Edge detection, Image processing, Divergence, Downsampling, Image Laplacian, Mean

Короткий адрес: https://sciup.org/15018415

IDR: 15018415   |   DOI: 10.5815/ijem.2022.03.02

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