A Gray Image Segmentation Method Based on Multi-objective Fuzzy Clustering
A gray-scale image and fuzzy clustering technology, which is applied in the field of image processing, can solve problems such as poor segmentation effect, noise points in the region, and poor regional consistency.
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Embodiment 1
[0057] Image segmentation is an important link in the image processing process, which provides the information basis for the subsequent target recognition and feature extraction of image processing. The minimum hardware configuration required to realize the image segmentation process is: personal computer processor 1GHz, memory 1GB, software environment: software such as matlab or VC.
[0058] refer to figure 1 , the present invention is a kind of grayscale image segmentation method based on multi-target fuzzy clustering, and the realization process comprises the following steps:
[0059] Step 1, read in a noise-free gray-scale image I, the gray-scale image can be obtained through the gray-scale processing of digital images, and the gray-scale image is usually saved with a nonlinear scale of 8 bits per sampling pixel, so There can be 256 gray levels.
[0060] In this embodiment, read in a grayscale image House, see figure 2 (a) is the grayscale image I to be segmented in t...
Embodiment 2
[0111] The grayscale image segmentation method based on multi-objective fuzzy clustering is the same as that in Example 1. In Example 2, the comparison experiment is a classic fuzzy C-means image segmentation method, and the image segmentation results are compared with grayscale images. In Example 2, the grayscale image House is used as the input image, the image size is 227×227 pixels, the grayscale is 256, and the maximum number of iterations is g max Take 50, the number of image segmentation categories K is set to 3, that is, the grayscale image is divided into three. Adopt the present invention to process final classification result figure see figure 2 (e).
[0112] figure 2 (a) is the original grayscale image of House, figure 2 (c) is the three-category segmentation result map obtained by using the fuzzy C-means method of the comparative experiment, figure 2 (e) is the three-category segmentation result figure that adopts the method of the present invention to obt...
Embodiment 3
[0114] The grayscale image segmentation method based on multi-objective fuzzy clustering is the same as that in Example 1. In Example 3, the comparison experiment is a classic fuzzy C-means image segmentation method, and the image segmentation results are compared with grayscale images. In Example 3, the grayscale image lena is used as the input image, the image size is 256×256 pixels, the grayscale is 256, and the maximum number of iterations is g max Take 50, and set the number of image segmentation categories K to 2, that is, to divide the gray image into two. For the final classification results, see image 3 (d).
[0115] image 3 (a) is the original grayscale image of lena, image 3 (b) is the two-category segmentation result map obtained by using the fuzzy C-means method of the comparative experiment, image 3 (d) is a two-category segmentation result map obtained by the method of the present invention, from image 3 (b) and image 3 (d) Contrast can find out: the...
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