Self-adaptive image segmentation method based on quick global K-means

An image segmentation and K-means technology, applied in the field of image processing, can solve problems such as inapplicable datasets with a large amount of data, the technology is not widely recognized, and the amount of calculation is large, so as to reduce the space complexity and time complexity, and effectively The effect of adaptive segmentation and accurate segmentation results

Active Publication Date: 2013-01-30
XIDIAN UNIV
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Problems solved by technology

However, these techniques have not been widely accepted
In 2003, Likas et al. proposed a global K-means clustering algorithm, but the algorithm has a large amount of calculation and poor time performance. Therefore, in his article, he also gave a fast global K-means clustering algorithm, but the

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  • Self-adaptive image segmentation method based on quick global K-means
  • Self-adaptive image segmentation method based on quick global K-means
  • Self-adaptive image segmentation method based on quick global K-means

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[0027] refer to figure 1 , the specific implementation steps of the present invention are as follows:

[0028] Step 1, input an image to be segmented with a size of R×Q, the total number of pixels is n, n=R×Q, set the search range [c min ,c max ], and let c=c min .

[0029] Step 2: For each pixel of the image to be segmented, perform 3-layer wavelet transformation with an M×M window to extract the texture feature x j ,j=1,...,n.

[0030] Step 3, use the improved fast global K-means algorithm to extract the texture feature x j ,j=1,...,n are clustered into c classes, and the cluster center V={v 1 ,v 2 ,.., v c},v i is the cluster center of each class, i=1,...,c.

[0031] 3a) Calculate the mean value of all texture features and use it as the initial cluster center w of the first class 1 , Where n is the total number of pixels in the image;

[0032] 3b) Set the number k of initial cluster centers: k=1;

[0033] 3c) Determine whether k+1 is greater than the number o...

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Abstract

The invention discloses a self-adaptive image segmentation method based on a quick global K-means, mainly solving the problems of poor effect and high calculation complexity of self-adaptively segmented images in the prior art. The self-adaptive image segmentation method is implemented through the following steps of: (1) reading an image to be segmented, and extracting texture characteristics of the image to be segmented; (2) setting a search range of an image cluster number c; (3) clustering the texture characteristics into c classes by using an improved quick global K-means method so as to obtain a clustering center; (4) calculating the membership grade of each texture characteristic belonging to each class; (5) calculating effectiveness indexes of L(c), L(c-1) and L(c-2) respectively corresponding to cluster number of c, c-1 and c-2 according to the membership grades and the clustering center; and (6) outputting a segmentation result if L(c-1) is more than L(c-2) and L(c-1) is more than L(c), otherwise, assuming c=c+1, and returning to the step (3). Compared with the other methods, the self-adaptive image segmentation method disclosed by the invention has the advantages of low calculation complexity, more accuracy of self-adaptively obtained optimal class number and segmentation result and capability of being used for segmenting and clustering images.

Description

technical field [0001] The invention belongs to the technical field of image processing, in particular to an image segmentation method, which can be used for image segmentation and clustering. Background technique [0002] Image segmentation is the technology and process of dividing an image into several specific regions with unique properties and proposing objects of interest. It is a key step from image processing to image analysis and is a basic computer vision technology. [0003] The problem of image segmentation can also be regarded as the problem of object classification, so the pattern classification technology in pattern recognition can be used. Image segmentation using feature space clustering method is to represent the pixels in the image space with corresponding feature space points, segment the feature space according to their aggregation in the feature space, and then map them back to the original image space to obtain the segmentation result. Among them, K-me...

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Application Information

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IPC IPC(8): G06T7/00
Inventor 王爽侯小瑾赵丽刘亚超刘坤马文萍马晶晶张涛
Owner XIDIAN UNIV
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