基于迁移学习的乳腺组织病理学图像分类的仿生方法

R. Mani, J. Kamalakannan, Y. P. Rangaiah, S. Anand, uppu Venkata Subba Rao
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引用次数: 0

摘要

乳腺癌是女性人群中最致命的癌症之一,在医学影像领域仍是一个发展中的研究领域。未得到早期诊断和延迟治疗的患者死亡率更高。因此,研究人员一直在努力开发乳腺癌检测系统,这些系统可以在早期阶段提供准确的诊断,而这些诊断依赖于医学成像。深度学习为克服许多图像分类任务提供了关键的解决方案。虽然深度学习技术已经深入到许多医学领域,但也存在数据不足的问题。卷积神经网络更适合用于医学图像分类任务。在本文中,我们提出了一种迁移学习方法来克服数据不足的问题。我们使用一个熟悉的预训练网络VGG-16 (Visual Geometric Group) +与Logistic回归作为二分类器。由于每个CNN的超参数对整个深度学习模型的性能影响更大,因此我们的方法着重于使用仿生算法粒子群算法对超参数进行优化,该模型将乳腺组织病理学图像分为良性和恶性图像,并取得了较好的效果。我们使用Break His Dataset来测试我们的方法,达到了96.9%左右的准确率。实验结果表明,与其他迁移学习方法相比,该研究提高了性能指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Bio-Inspired Method For Breast Histopathology Image Classification Using Transfer Learning
Breast cancer is one of the deadly cancer among the female population, and still a developing area of research in the field of medical imaging. The fatality rate is more in patients who are not early diagnosed and are given delayed treatment. Hence researchers are keeping their lot of efforts in developing breast cancer detection systems that could provide accurate diagnosis in the initial stages which are relied on medical imaging. Deep learning is offering key solutions to overcome many image classification tasks. Though deep learning techniques have extended their root to many medical fields even it suffers from the problem of lack of sufficient data. Convolutional Neural Networks are more preferred for medical image classification tasks. In this paper, we propose a transfer learning method that overcomes the issue of insufficient data. We use a familiar pre-trained network VGG-16 (Visual Geometric Group) + with Logistic Regression as a binary classifier. Since hyper-parameters of every CNN has a closer impact on the performance of the entire deep learning model, our method focus on optimizing hyper-parameters using particle swarm optimization which is a bio-inspired algorithm, The proposed model performs classification of Breast Histopathology images into benign and malignant images and produce better results. We use Break His Dataset to test our method and achieve an accuracy of around 96.9%. The experimental results show that this study has improved performance metrics when compared to other transfer learning methods.
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CiteScore
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