Mohammed Nasir Uddin

Work place: Dept. of Computer Science & Engineering, Jagannath University, Dhaka, Bangladesh

E-mail: nasir@cse.jnu.ac.bd

Website:

Research Interests: Information-Theoretic Security, Network Security, Information Security

Biography

Mohammed Nasir Uddin, is a distinguished Professor at the Department of Computer Science and Engineering, Jagannath University, Dhaka-Bangladesh. His research interests are Cyber Security and Digital Forensic.

Author Articles
Self-Organizing Feature Map and K-Means Algorithm with Automatically Splitting and Merging Clusters based Image Segmentation

By Tamanna Yesmin Rashme Mohammed Nasir Uddin

DOI: https://doi.org/10.5815/ijigsp.2018.10.07, Pub. Date: 8 Oct. 2018

Image segmentation plays the significant roles in image processing, computer vision and as well as in pattern recognition. The Segmentation process subdivides an image into its constituent parts or objects, such that level of subdivision depends on the problem to be solved. The aim of image segmentation is partitioning an image within homogeneous regions that are significantly meaningful concerning some characteristics like intensity or texture. Based on clustering, a large number of researches have been done in the area of image segmentation. This paper presents an efficient image segmentation method in which the self organizing feature map (SOFM) is used for initial segmentation. After the initial segmentation, the segmented image is used by the K-means algorithm for further segmentation. Finally, the procedures for automatic splitting and merging the cluster are applied to obtain the appropriate number of segments in segmented image and as well as better segmented results. For analyzing the performance, we calculate the statistical measure named as Davies-Bouldin index (DB-index). The observation shows that, this method gives the better segmented results compared with K-Means algorithm, linear discriminant analysis (LDA) and K-Means based image segmentation method and also SOFM and K-Means based image segmentation approach.

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