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A deep learning model integrating convolution neural network and multiple kernel K means clustering for segmenting brain tumor in magnetic resonance images

Balakumaresan Ragupathy, Manivannan Karunakaran

2020International Journal of Imaging Systems and Technology19 citationsDOI

Abstract

Abstract In medical imaging, segmenting brain tumor becomes a vital task, and it provides a way for early diagnosis and treatment. Manual segmentation of brain tumor in magnetic resonance (MR) images is a time‐consuming and challenging task. Hence, there is a need for a computer‐aided brain tumor segmentation approach. Using deep learning algorithms, a robust brain tumor segmentation approach is implemented by integrating convolution neural network (CNN) and multiple kernel K means clustering (MKKMC). In this proposed CNN‐MKKMC approach, classification of MR images into normal and abnormal is performed by CNN algorithm. At next, MKKMC algorithm is employed to segment the brain tumor from the abnormal brain image. The proposed CNN‐MKKMC algorithm is evaluated both visually and objectively in terms of accuracy, sensitivity, and specificity with the existing segmentation methods. The experimental results demonstrate that the proposed CNN‐MKKMC approach yields better accuracy in segmenting brain tumor with less time cost.

Topics & Concepts

Artificial intelligenceComputer scienceConvolutional neural networkSegmentationCluster analysisKernel (algebra)Pattern recognition (psychology)Market segmentationImage segmentationBrain tumorConvolution (computer science)Magnetic resonance imagingDeep learningArtificial neural networkComputer visionRadiologyMathematicsPathologyMedicineCombinatoricsBusinessMarketingBrain Tumor Detection and ClassificationAdvanced Neural Network ApplicationsMedical Image Segmentation Techniques
A deep learning model integrating convolution neural network and multiple kernel K means clustering for segmenting brain tumor in magnetic resonance images | Litcius