An efficient approach for brain tumor detection and segmentation in MR brain images using random forest classifier

Meenal Thayumanavan, Asokan Ramasamy
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引用次数: 16

Abstract

Nowadays, the most demanding and time consuming task in medical image processing is Brain tumor segmentation and detection. Magnetic Resonance Imaging (MRI) is employed for creating a picture of any part in a body. MRI provides a competent quick manner for analyzing tumor in the brain. This proposed framework contains different stages for classifying tumor like Preprocessing, Feature extraction, Classification, and Segmentation. Initially, T1-weighted magnetic resonance brain images are considered as an input for computational purpose. Median filter is proposed to optimize the skull stripping in MRI images. Abnormal brain tissues are extracted in low contrast, in addition to meticulous location of edges of affected tissue can be detected. Then, Discrete Wavelet Transform (DWT) and Histogram of Oriented Gradients (HOG) are performing feature extraction process. HOG is used for extracting the features like texture and shape. Then, Classification is performed through Machine learning categorization techniques via Random Forest Classifier (RFC), Support Vector Machine (SVM), and Decision Tree (DT). These classifiers classify the brain image as either normal or abnormal and the performance is analyzed by various parameters such as sensitivity, specificity and accuracy.
一种基于随机森林分类器的脑肿瘤检测与分割方法
目前,医学图像处理中要求最高、耗时最长的任务是脑肿瘤的分割与检测。磁共振成像(MRI)被用来绘制身体任何部位的图像。MRI为分析脑内肿瘤提供了一种有效的快速方法。该框架包含了肿瘤分类的预处理、特征提取、分类和分割等阶段。最初,t1加权磁共振脑图像被认为是用于计算目的的输入。提出了一种优化MRI颅骨剥离的中值滤波方法。在低对比度下提取异常脑组织,并对受影响组织的边缘进行精细定位。然后,采用离散小波变换(DWT)和梯度直方图(HOG)进行特征提取。HOG用于提取纹理和形状等特征。然后,通过随机森林分类器(RFC)、支持向量机(SVM)和决策树(DT)的机器学习分类技术进行分类。这些分类器将大脑图像分类为正常或异常,并通过灵敏度、特异性和准确性等各种参数对其性能进行分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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