Publication Type : Journal Article
Source : Journal of Ambient Intelligence and Humanized Computing, pp. 1-14, 2020.
Campus : Coimbatore
School : School of Physical Sciences
Department : Mathematics
Year : 2020
Abstract : Fuzzy C-Means (FCM) plays a major role in brain tissue segmentation. The proposed method aims to implements rapid brain tissue segmentation from MRI human head scans using FCM in CPU and GPU. This method is known as FCM-GENIUS. This paper presents three novel steps to enrich the performance of conventional FCM algorithm in CPU. There are region of interest (ROI) selection, knowledge based initialization and knowledge based optimization. The ROI selection is a preprocessing step contains brain extraction and bounding box processes. An automatic knowledge based initialization to FCM algorithm using histogram smoothing for centroids selection from middle slice of the given MRI brain volume. Optimization helps to improve the computation speed up of FCM algorithm using MRI slice adjacency property. The materials used for the proposed work are gathering from internet brain segmentation repository (IBSR). The accuracy of segmentation also compared with traditional and existing methods. The proposed method yield equal segmentation accuracy compared with existing methods but reduces the segmentation time considerably up to seven times and average number of iterations up to three times. In addition, parallel FCM implements in GPU machine and the performance was compared with the conventional FCM in CPU. The single instruction multiple data (SIMD) model was used with the hybrid CPU–GPU implementation in the GPU machine to accelerate the medical image segmentation.
Cite this Research Publication : Prajoona Valsalan, P. Sriramakrishnan, S. Sridhar, G. Charlyn Pushpa Latha, A. Priya, S. Ramkumar, A. Robert Singh, T. Rajendran, "Knowledge Based Fuzzy C-Means Method for Rapid Segmentation of Brain Tissues from Magnetic Resonance Imaging Scans using CPU and GPU Machine", Journal of Ambient Intelligence and Humanized Computing, pp. 1-14, 2020.