基于块的小肺结节分类的深度卷积结构

Ahmed Samy Ismaeil, M. A. Salem
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引用次数: 0

摘要

肺结节是肺内小的圆形或椭圆形的生长物。肺结节是在计算机断层扫描(CT)中发现的。早期准确的发现这些结节有助于成功的诊断和治疗肺癌。近年来,对CT扫描的需求大幅增加,从而增加了放射科医生的工作量,他们需要花费数小时阅读CT扫描图像。计算机辅助检测(CAD)系统旨在帮助放射科医生在阅读过程中,从而使筛查更有效。最近,将深度学习应用于医学图像由于其巨大的潜力而受到了关注。本文受深度卷积神经网络(deep convolutional neural networks, DCNNs)在自然图像识别中的成功应用启发,提出了一种基于深度卷积神经网络的CT图像肺结节检测系统。此外,该系统没有使用其他检测系统中常用的图像分割或后分类假阳性剔除技术。该系统在公开可用的肺图像数据库联盟(LIDC)数据集上实现了63.49%的准确率,该数据集包含1018个不同形状和大小的肺结节的胸部CT扫描。
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Deep Convolutional Architecture for Block-Based Classification of Small Pulmonary Nodules
A pulmonary nodule is a small round or oval-shaped growth in the lung. Pulmonary nodules are detected in Computed Tomography (CT) lung scans. Early and accurate detection of such nodules could help in successful diagnosis and treatment of lung cancer. In recent years, the demand for CT scans has increased substantially, thus increasing the workload on radiologists who need to spend hours reading through CT-scanned images. Computer-Aided Detection (CAD) systems are designed to assist radiologists in the reading process and thus making the screening more effective. Recently, applying deep learning to medical images has gained attraction due to its high potential. In this paper, inspired by the successful use of deep convolutional neural networks (DCNNs) in natural image recognition, we propose a detection system based on DCNNs which is able to detect pulmonary nodules in CT images. In addition, this system does not use image segmentation or post-classification false-positive r eduction t echniques which are commonly used in other detection systems. The system achieved an accuracy of 63.49% on the publicly available Lung Image Database Consortium (LIDC) dataset which contains 1018 thoracic CT scans with pulmonary nodules of different shapes and sizes.
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