Machine learning and transfer learning techniques for accurate brain tumor classification

Clinical eHealth Pub Date : 2024-08-08 DOI:10.1016/j.ceh.2024.08.001

Seyed Matin Malakouti, Mohammad Bagher Menhaj, Amir Abolfazl Suratgar

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Abstract

Brain tumors, resulting from uncontrolled and rapid cell growth, pose significant health risks if not treated early. Despite numerous advancements, accurate segmentation and classification remain challenging. This study leverages machine learning (ML) and transfer learning techniques to classify healthy and sick individuals using numerical data and MRI images. We utilized 3762 MRI images alongside Light Gradient Boosting Machine (LightGBM), AdaBoost, gradient boosting, Random Forest, Quadratic Discriminant Analysis, Linear Discriminant Analysis, logistic regression, and transfer learning algorithms. Numerical data was processed with LightGBM, achieving an accuracy of 95.7 %. Transfer learning applied to image data using a modified GoogLeNet model further enhanced classification accuracy to 99.3 %. These results demonstrate the effectiveness of combining ML and transfer learning techniques for accurate brain tumor classification, addressing limitations of prior approaches and offering improved diagnostic reliability. All coding and model implementations were conducted on the Python platform.

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用于脑肿瘤精确分类的机器学习和迁移学习技术

脑肿瘤是由不受控制的快速细胞生长引起的，如果不及早治疗，会对健康造成严重威胁。尽管取得了许多进展，但准确的分割和分类仍具有挑战性。本研究利用机器学习（ML）和迁移学习技术，通过数字数据和核磁共振成像图像对健康人和病人进行分类。我们使用了 3762 幅核磁共振图像以及光梯度提升机 (LightGBM)、AdaBoost、梯度提升、随机森林、二次判别分析、线性判别分析、逻辑回归和迁移学习算法。使用 LightGBM 处理了数值数据，准确率达到 95.7%。使用改进的 GoogLeNet 模型对图像数据进行迁移学习，进一步将分类准确率提高到 99.3%。这些结果表明，结合 ML 和迁移学习技术进行准确的脑肿瘤分类非常有效，既解决了以往方法的局限性，又提高了诊断的可靠性。所有编码和模型实现均在 Python 平台上进行。

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

Clinical eHealth

CiteScore

8.10

自引率

0.00%

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