Amarnath Amarnath, Ali Al Bataineh, Jeremy A. Hansen
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引用次数: 0
摘要
背景:颅内肿瘤通常被称为脑瘤,是指脑部组织的异常增生或肿块。脑部的复杂性和相关的诊断延迟给患者带来了巨大的压力。本研究旨在利用深度迁移学习提高脑肿瘤核磁共振成像分析的效率。方法:我们开发并评估了五个预训练深度学习模型--ResNet50、Xception、EfficientNetV2-S、ResNet152V2 和 VGG16--的性能,使用公开的核磁共振扫描数据集将图像分类为胶质瘤、脑膜瘤、垂体瘤或无肿瘤。评估中使用了各种分类指标。结果:我们的研究结果表明,这些模型可以提高磁共振成像分析对脑肿瘤分类的准确性,其中 Xception 模型的性能最高,测试 F1 得分为 0.9817,其次是 EfficientNetV2-S,测试 F1 得分为 0.9629。结论采用预训练的深度学习模型可以提高磁共振成像检测脑肿瘤的准确性。
Transfer-Learning Approach for Enhanced Brain Tumor Classification in MRI Imaging
Background: Intracranial neoplasm, often referred to as a brain tumor, is an abnormal growth or mass of tissues in the brain. The complexity of the brain and the associated diagnostic delays cause significant stress for patients. This study aims to enhance the efficiency of MRI analysis for brain tumors using deep transfer learning. Methods: We developed and evaluated the performance of five pre-trained deep learning models—ResNet50, Xception, EfficientNetV2-S, ResNet152V2, and VGG16—using a publicly available MRI scan dataset to classify images as glioma, meningioma, pituitary, or no tumor. Various classification metrics were used for evaluation. Results: Our findings indicate that these models can improve the accuracy of MRI analysis for brain tumor classification, with the Xception model achieving the highest performance with a test F1 score of 0.9817, followed by EfficientNetV2-S with a test F1 score of 0.9629. Conclusions: Implementing pre-trained deep learning models can enhance MRI accuracy for detecting brain tumors.
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