Brain Tumor Classification Deep Learning Model Using Neural Networks

IF 1.7 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS International Journal of Online and Biomedical Engineering Pub Date : 2023-07-07 DOI:10.3991/ijoe.v19i09.38819

G. Maquen-Niño, Ariana Ayelen Sandoval-Juarez, Robinson Andres Veliz-La Rosa, Gilberto Carrión-Barco, Ivan Adrianzén-Olano, Hugo Vega-Huerta, Percy De-La-Cruz-VdV

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Abstract

The timely diagnosis of brain tumors is currently a complicated task. The objective was to build an image classification model to detect the existence or not of brain tumors by adding a classification header to a ResNet-50 architecture. The CRISP-DM methodology was used for data mining. A dataset of 3847 brain MRI images was used, 2770 images for training, 500 for validation, and 577 for testing. The images were resized to a 256 × 256 scale and then a data generator is created that is responsible for dividing pixels by 255. The training was performed and then the evaluation process was carried out, obtaining an accuracy percentage of 92% and a precision of 94% in the evaluation process. It is concluded that the proposed CNN model composed of a head with a ResNet50 architecture and a seven-layer convolutional network achieves adequate accuracy, becoming an efficient and complementary proposal to other models developed in previous works.

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基于神经网络的脑肿瘤分类深度学习模型

脑肿瘤的及时诊断目前是一项复杂的任务。目的是通过在ResNet-50架构中添加分类头来建立图像分类模型，以检测脑肿瘤的存在与否。CRISP-DM方法用于数据挖掘。使用了3847张大脑MRI图像的数据集，2770张图像用于训练，500张用于验证，577张用于测试。将图像调整为256×256的比例，然后创建一个数据生成器，负责将像素除以255。进行训练，然后进行评估过程，在评估过程中获得92%的准确率和94%的精度。结果表明，所提出的由具有ResNet50架构的头部和七层卷积网络组成的CNN模型实现了足够的精度，成为对先前工作中开发的其他模型的有效和补充建议。

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