MRI Brain Images Mapping for Tumour Detection Using CNN

Q4 Social Sciences
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引用次数: 0

Abstract

Brain tumor is a serious life-threatening disease which occurs due to peculiar growth of cells or tissues present in brain. In recent times it is becoming a considerable cause of death of many people. The seriousness of this tumor growing in brain is very huge when compared to all other varieties of cancers and tumors. Hence, to save the affected people detection of the tumor and proper treatment should be done instantaneously without any delay. In this new age of technology, Machine Learning (ML) and Deep Learning (DL) models can be utilized to identify the tumor at early stages more precisely so that proper medication can be given to the affected person which will help in curing them. This paper proposes two different machine learning models to identify the brain tumor by analysing the Magnetic Resonance Image (MRI) scans of the brain. Both unsupervised and supervised learning models were implemented to detect the tumors in brain. Fuzzy C means is used as a part of unsupervised learning model, it is a data clustering algorithm in which entire data set is grouped into predefined number of clusters with every data point belonging to every cluster to a specific degree of membership value. In this approach tumor region is treated as one cluster and healthy brain is another cluster. Moving forward, as a part of supervised learning, transfer learning approach is implemented for classifying whether the given input MRI scan consists of tumor or not. Visual Geometric Group (VGG-19) model was used which is a 19-layer deep pre-trained neural network architecture for better accuracy and results. All the models were developed using python in jupyter notebook.
基于CNN的肿瘤检测MRI脑图像映射
脑肿瘤是由于脑内细胞或组织的特殊生长而发生的严重危及生命的疾病。最近,它正成为许多人死亡的一个重要原因。与所有其他类型的癌症和肿瘤相比,这种在大脑中生长的肿瘤的严重性非常大。因此,为了拯救受影响的人,肿瘤的检测和适当的治疗应该立即进行,没有任何延迟。在这个新的技术时代,机器学习(ML)和深度学习(DL)模型可以用来在早期阶段更精确地识别肿瘤,以便为受影响的人提供适当的药物治疗,这将有助于治愈他们。本文提出了两种不同的机器学习模型,通过分析大脑的磁共振图像(MRI)扫描来识别脑肿瘤。采用无监督学习模型和监督学习模型对脑内肿瘤进行检测。模糊C均值作为无监督学习模型的一部分,它是一种数据聚类算法,将整个数据集分成预定义数量的聚类,每个数据点属于每个聚类,具有特定的隶属度值。在这种方法中,肿瘤区域被视为一个簇,健康的大脑被视为另一个簇。接下来,作为监督学习的一部分,实现了迁移学习方法来对给定的输入MRI扫描是否包含肿瘤进行分类。采用视觉几何群(Visual Geometric Group, VGG-19)模型,该模型是一种19层深度预训练神经网络结构,具有更好的精度和效果。所有模型都是在jupyter notebook中使用python开发的。
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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来源期刊
International Journal of Geoinformatics
International Journal of Geoinformatics Social Sciences-Geography, Planning and Development
CiteScore
1.00
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0.00%
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