Chaochun Liu scite author profile

In this work, we present a fully automated lung computed tomography (CT) cancer diagnosis system, DeepLung. DeepLung consists of two components, nodule detection (identifying the locations of candidate nodules) and classification (classifying candidate nodules into benign or malignant). Considering the 3D nature of lung CT data and the compactness of dual path networks (DPN), two deep 3D DPN are designed for nodule detection and classification respectively. Specifically, a 3D Faster Regions with Convolutional Neural Net (R-CNN) is designed for nodule detection with 3D dual path blocks and a U-net-like encoder-decoder structure to effectively learn nodule features. For nodule classification, gradient boosting machine (GBM) with 3D dual path network features is proposed. The nodule classification subnetwork was validated on a public dataset from LIDC-IDRI, on which it achieved better performance than state-of-the-art approaches and surpassed the performance of experienced doctors based on image modality. Within the DeepLung system, candidate nodules are detected first by the nodule detection subnetwork, and nodule diagnosis is conducted by the classification subnetwork. Extensive experimental results demonstrate that DeepLung has performance comparable to experienced doctors both for the nodule-level and patient-level diagnosis on the LIDC-IDRI dataset. 1

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DeepLung: 3D Deep Convolutional Nets for Automated Pulmonary Nodule Detection and Classification

Zhu

Liu

Wang

et al. 2017

Preprint

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In this work, we present a fully automated lung CT cancer diagnosis system, DeepLung. DeepLung contains two parts, nodule detection and classification. Considering the 3D nature of lung CT data, two 3D networks are designed for the nodule detection and classification respectively. Specifically, a 3D Faster R-CNN is designed for nodule detection with a U-net-like encoder-decoder structure to effectively learn nodule features. For nodule classification, gradient boosting machine (GBM) with 3D dual path network (DPN) features is proposed. The nodule classification subnetwork is validated on a public dataset from LIDC-IDRI, on which it achieves better performance than state-of-the-art approaches, and surpasses the average performance of four experienced doctors. For the DeepLung system, candidate nodules are detected first by the nodule detection subnetwork, and nodule diagnosis is conducted by the classification subnetwork. Extensive experimental results demonstrate the DeepLung is comparable to the experienced doctors both for the nodule-level and patient-level diagnosis on the LIDC-IDRI dataset.

show abstract

DeepLung: Deep 3D Dual Path Nets for Automated Pulmonary Nodule Detection and Classification

Zhu

Liu

Wang

et al. 2018

Preprint

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DeepLung: 3D Deep Convolutional Nets for Automated Pulmonary Nodule Detection and Classification

Zhu¹,

Liu²,

Wang³

et al. 2017

Preprint

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Augmented LSTM Framework to Construct Medical Self-Diagnosis Android

Liu

Sun

et al. 2016

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Chaochun Liu

DeepLung: Deep 3D Dual Path Nets for Automated Pulmonary Nodule Detection and Classification

DeepLung: 3D Deep Convolutional Nets for Automated Pulmonary Nodule Detection and Classification

DeepLung: Deep 3D Dual Path Nets for Automated Pulmonary Nodule Detection and Classification

DeepLung: 3D Deep Convolutional Nets for Automated Pulmonary Nodule Detection and Classification

Augmented LSTM Framework to Construct Medical Self-Diagnosis Android

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