基于重构和微调的高效脑肿瘤分类深度学习模型

Md. Alamin Talukder, Md. Manowarul Islam, Md. Ashraf Uddin, Arnisha Akhter, Md. Alamgir Jalil Pramanik, Sunil Aryal, Muhammad Ali Abdullah Almoyad, Khondokar Fida Hasan, M. Moni
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引用次数: 14

摘要

脑肿瘤是最致命和最具破坏性的疾病之一,往往导致预期寿命大大缩短。脑肿瘤的准确诊断对于制定治疗计划,延长患者的生命至关重要。人工识别和分析大量MRI数据既具有挑战性又耗时。因此,迫切需要一个可靠的深度学习(DL)模型来准确诊断脑肿瘤。在这项研究中,我们提出了一种新的基于迁移学习的深度学习方法来有效地分类脑肿瘤。我们的新方法结合了广泛的预处理、迁移学习架构重建和微调。我们采用了几种迁移学习算法,包括Xception、ResNet50V2、InceptionResNetV2和DenseNet201。我们的实验使用Figshare MRI脑肿瘤数据集,包含3,064张图像,Xception, ResNet50V2, InceptionResNetV2和DenseNet201的准确率分别达到99.40%,99.68%,99.36%和98.72%。我们的研究结果表明,ResNet50V2在Figshare MRI脑肿瘤数据集上达到了99.68%的最高准确率,优于现有模型。因此,我们提出的模型在短时间内准确分类脑肿瘤的能力可以帮助神经科医生和临床医生对脑肿瘤患者做出及时准确的诊断决策。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An efficient deep learning model to categorize brain tumor using reconstruction and fine-tuning
Brain tumors are among the most fatal and devastating diseases, often resulting in significantly reduced life expectancy. An accurate diagnosis of brain tumors is crucial to devise treatment plans that can extend the lives of affected individuals. Manually identifying and analyzing large volumes of MRI data is both challenging and time-consuming. Consequently, there is a pressing need for a reliable deep learning (DL) model to accurately diagnose brain tumors. In this study, we propose a novel DL approach based on transfer learning to effectively classify brain tumors. Our novel method incorporates extensive pre-processing, transfer learning architecture reconstruction, and fine-tuning. We employ several transfer learning algorithms, including Xception, ResNet50V2, InceptionResNetV2, and DenseNet201. Our experiments used the Figshare MRI brain tumor dataset, comprising 3,064 images, and achieved accuracy scores of 99.40%, 99.68%, 99.36%, and 98.72% for Xception, ResNet50V2, InceptionResNetV2, and DenseNet201, respectively. Our findings reveal that ResNet50V2 achieves the highest accuracy rate of 99.68% on the Figshare MRI brain tumor dataset, outperforming existing models. Therefore, our proposed model's ability to accurately classify brain tumors in a short timeframe can aid neurologists and clinicians in making prompt and precise diagnostic decisions for brain tumor patients.
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