利用磁共振成像早期检测脑肿瘤的深度学习与监督学习集成方法

Kamini Lamba , Shalli Rani , Monika Anand , Lakshmana Phaneendra Maguluri
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引用次数: 0

摘要

脑肿瘤的诊断非常困难,尤其是在疾病的早期阶段。传统方法往往会延误为患者提供所需的治疗,缩短他们的寿命。本文介绍了一种新颖的集成方法,它采用了先进的人工智能子集,包括深度学习和监督学习算法。由于这些新技术能够根据输入数据捕捉适当的特征,因此展现出了卓越的潜力。它们可以帮助医学专家识别大脑内部细胞的异常生长。我们利用公开的脑磁共振成像(MRI)数据集诊断脑肿瘤,并开发了一个自动化系统。我们提出的方法使用数据增强技术来增强图像尺寸并保持标准化。然后,我们在迁移学习后部署了一个有 16 层的视觉几何组,以帮助医学专家在做出准确决定时尽量减少工作量。我们利用监督学习算法和线性支持向量机(SVM)提取最重要的特征,提高诊断速度和准确性。所提出的模型优于现有的方法,准确率为 98.87%,精确度为 99.09%,召回率为 98.73%,特异性为 99.02%,F1 分数为 98.91%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An integrated deep learning and supervised learning approach for early detection of brain tumor using magnetic resonance imaging

Diagnosing brain tumors is difficult, especially at an early stage of the disease. Conventional approaches often cause delays in providing required treatment to the patients and shorten their lifespan. This paper presents a novel integrated approach with advanced subsets of artificial intelligence, including deep learning and supervised learning algorithms. These new technologies have demonstrated outstanding potential due to their ability to capture the appropriate features based on the input data. They can assist medical experts in identifying abnormal growth of cells inside the brain. We use publicly available brain magnetic resonance imaging (MRI) datasets to diagnose brain tumors and develop an automated system. The proposed approach uses data augmentation to enhance the image sizes and maintain standardization. We then deploy a visual geometry group with 16 layers following transfer learning to help minimize the medical experts’ workload in making accurate decisions. We extract the most significant features and improve the diagnostic speed and accuracy using a supervised learning algorithm and linear support vector machines (SVM). The proposed model outperforms the existing approaches with an accuracy of 98.87%, precision of 99.09%, recall of 98.73%, specificity of 99.02%, and F1-score of 98.91%.

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来源期刊
Healthcare analytics (New York, N.Y.)
Healthcare analytics (New York, N.Y.) Applied Mathematics, Modelling and Simulation, Nursing and Health Professions (General)
CiteScore
4.40
自引率
0.00%
发文量
0
审稿时长
79 days
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