以数据为中心的肺结节检测深度学习方法

Chi Cuong Nguyen, Long Giang Nguyen, Giang Son Tran
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引用次数: 0

摘要

肺癌是越南乃至全世界最严重的癌症相关疾病之一。早期发现肺结节有助于提高肺癌患者的生存率。计算机辅助诊断(CAD)系统在文献中提出用于早期发现肺结节。然而,目前大多数CAD系统都是基于为固定数据集建立高质量的机器学习模型,而不是考虑对肺癌诊断非常重要的数据集属性。在本文中,我们遵循以数据为中心的肺结节检测方法的方向,提出了一种以数据为中心的方法来提高CT扫描肺结节的检测性能。我们的方法考虑了数据集的特定特征(结节大小和纵横比)来训练检测模型,并添加了更多来自越南当地医院的训练数据。我们在三种广泛使用的目标检测网络(Faster R-CNN, YOLOv3和RetinaNet)上实验了我们的方法。实验结果表明,该方法将这些目标检测模型的检测灵敏度提高了4.24%。
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DATA-CENTRIC DEEP LEARNING METHOD FOR PULMONARY NODULE DETECTION
Lung cancer is one of the most serious cancer-related diseases in Vietnam and all over the world. Early detection of lung nodules can help to increase the survival rate of lung cancer patients. Computer-aided diagnosis (CAD) systems are proposed in the literature for early detection of lung nodules. However, most of the current CAD systems are based on the building of high-quality machine learning models for a fixed dataset rather than taking into account the dataset properties which are very important for the lung cancer diagnosis. In this paper, we follow the direction of data-centric approach for lung nodule detection by proposing a data-centric method to improve detection performance of lung nodules on CT scans. Our method takes into account the dataset-specific features (nodule sizes and aspect ratios) to train detection models as well as add more training data from local Vietnamese hospital. We experiment our method on the three widely used object detection networks (Faster R-CNN, YOLOv3 and RetinaNet). The experimental results show that our proposed method improves detection sensitivity of these object detection models up to 4.24%.
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