Abstract
Problem statement: Segmentation plays an important role in medical imaging. Segmentation of an image is the division or separation of the image into dissimilar regions of similar attribute. In this study we proposed a methodology that integrates clustering algorithm and marker controlled watershed segmentation algorithm for medical image segmentation. The use of the conservative watershed algorithm for medical image analysis is pervasive because of its advantages, such as always being able to construct an entire division of the image. On the other hand, its disadvantages include over segmentation and sensitivity to false edges. Approach: In this study we proposed a methodology that integrates K-Means clustering with marker controlled watershed segmentation algorithm and integrates Fuzzy C-Means clustering with marker controlled watershed segmentation algorithm separately for medical image segmentation. The Clustering algorithms are unsupervised learning algorithms, while the marker controlled watershed segmentation algorithm makes use of automated thresholding on the gradient magnitude map and post-segmentation merging on the initial partitions to reduce the number of false edges and over-segmentation. Results: In this study, we compared K-means clustering and marker controlled watershed algorithm with Fuzzy C-means clustering and marker controlled watershed algorithm. And also we showed that our proposed method produced segmentation maps which gave fewer partitions than the segmentation maps produced by the conservative watershed algorithm. Conclusion: Integration of K-means clustering with marker controlled watershed algorithm gave better segmentation than integration of Fuzzy C-means clustering with marker controlled watershed algorithm. By reducing the amount of over segmentation, we obtained a segmentation map which is more diplomats of the several anatomies in the medical images.
Highlights
Image segmentation is a vital method for most medical image analysis tasks
The watershed segmentation technique has been widely used in medical image segmentation
Fuzzy C-means algorithm: Fuzzy C-M clustering (FCM), called as ISODATA, is a data clustering method in which each data point belongs to a cluster to a degree specified by a membership value
Summary
Image segmentation is a vital method for most medical image analysis tasks. Segmentation is an important process to extract information from complex medical images. The accretion of water in the neighborhood of clustering algorithm is a soft segmentation method that local minima is called a catchment basin. There has been an increasing If a convergence criterion is not met, go to step 2 interest in applying soft segmentation algorithms, with new cluster centers by the following equation, where a pixel may be classified partially into multiple i.e., minimal decrease in squared error: classes, for MR images segmentation. Fuzzy C-means algorithm: Fuzzy C-M clustering (FCM), called as ISODATA, is a data clustering method in which each data point belongs to a cluster to a degree specified by a membership value. FCM uses fuzzy partitioning such that a given data point can belong to several groups with the degree of belongingness specified by membership values between 0 and 1 Modify the segmentation function so that it only has minima at the foreground and background marker locations
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