基于深度学习的人类染色体分类:数据增强和集成

Inf. Comput. Pub Date : 2023-07-09 DOI:10.3390/info14070389
M. D’Angelo, L. Nanni
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引用次数: 0

摘要

对象分类是深度学习中的一项关键任务,涉及对图像或视频中的对象进行识别和分类。虽然人类可以很容易地识别常见的物体,比如汽车、动物或植物,但大规模地执行这项任务可能会很耗时,而且容易出错。因此,使用神经网络自动化这一过程可以节省时间和精力,同时实现更高的准确性。我们的研究集中在人类染色体核型的分类步骤,一个重要的医疗程序,有助于诊断遗传疾病。传统上,这项任务是由细胞学专家手动执行的,这是一个耗时的过程,需要专业的医疗技能。因此,通过深度学习实现自动化是非常有用的。为了实现这一目标,我们实现并调整了现有的预处理和数据增强技术,以准备用于分类的染色体图像。我们使用ResNet-50卷积神经网络和Swin Transformer,结合集成方法对染色体进行分类,在测试数据集中获得了最先进的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deep-Learning-Based Human Chromosome Classification: Data Augmentation and Ensemble
Object classification is a crucial task in deep learning, which involves the identification and categorization of objects in images or videos. Although humans can easily recognize common objects, such as cars, animals, or plants, performing this task on a large scale can be time-consuming and error-prone. Therefore, automating this process using neural networks can save time and effort while achieving higher accuracy. Our study focuses on the classification step of human chromosome karyotyping, an important medical procedure that helps diagnose genetic disorders. Traditionally, this task is performed manually by expert cytologists, which is a time-consuming process that requires specialized medical skills. Therefore, automating it through deep learning can be immensely useful. To accomplish this, we implemented and adapted existing preprocessing and data augmentation techniques to prepare the chromosome images for classification. We used ResNet-50 convolutional neural network and Swin Transformer, coupled with an ensemble approach to classify the chromosomes, obtaining state-of-the-art performance in the tested dataset.
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