Domain Progressive 3D Residual Convolution Network to Improve Low-Dose CT Imaging

Xiangrui Yin; Jean Louis Coatrieux; Qianlong Zhao; Jin Liu; Wei Yang; Jian Yang; Guotao Quan; Yang Chen; Huazhong Shu; Limin Luo

doi:10.1109/TMI.2019.2917258

Domain Progressive 3D Residual Convolution Network to Improve Low-Dose CT Imaging

Xiangrui Yin, Jean Louis Coatrieux, Qianlong Zhao, Jin Liu, Wei Yang, Jian Yang, Guotao Quan, Yang Chen^*, Huazhong Shu, Limin Luo

^*此作品的通讯作者

光电学院

科研成果: 期刊稿件 › 文章 › 同行评审

182 引用（Scopus）

摘要

The wide applications of X-ray computed tomography (CT) bring low-dose CT (LDCT) into a clinical prerequisite, but reducing the radiation exposure in CT often leads to significantly increased noise and artifacts, which might lower the judgment accuracy of radiologists. In this paper, we put forward a domain progressive 3D residual convolution network (DP-ResNet) for the LDCT imaging procedure that contains three stages: sinogram domain network (SD-net), filtered back projection (FBP), and image domain network (ID-net). Though both are based on the residual network structure, the SD-net and ID-net provide complementary effect on improving the final LDCT quality. The experimental results with both simulated and real projection data show that this domain progressive deep-learning network achieves significantly improved performance by combing the network processing in the two domains.

源语言	英语
文章编号	8718010
页（从-至）	2903-2913
页数	11
期刊	IEEE Transactions on Medical Imaging
卷	38
期	12
DOI	https://doi.org/10.1109/TMI.2019.2917258
出版状态	已出版 - 12月 2019

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title = "Domain Progressive 3D Residual Convolution Network to Improve Low-Dose CT Imaging",

abstract = "The wide applications of X-ray computed tomography (CT) bring low-dose CT (LDCT) into a clinical prerequisite, but reducing the radiation exposure in CT often leads to significantly increased noise and artifacts, which might lower the judgment accuracy of radiologists. In this paper, we put forward a domain progressive 3D residual convolution network (DP-ResNet) for the LDCT imaging procedure that contains three stages: sinogram domain network (SD-net), filtered back projection (FBP), and image domain network (ID-net). Though both are based on the residual network structure, the SD-net and ID-net provide complementary effect on improving the final LDCT quality. The experimental results with both simulated and real projection data show that this domain progressive deep-learning network achieves significantly improved performance by combing the network processing in the two domains.",

keywords = "Low dose computed tomography (LDCT), artifacts reduction, deep learning, residual network",

author = "Xiangrui Yin and Coatrieux, {Jean Louis} and Qianlong Zhao and Jin Liu and Wei Yang and Jian Yang and Guotao Quan and Yang Chen and Huazhong Shu and Limin Luo",

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doi = "10.1109/TMI.2019.2917258",

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T1 - Domain Progressive 3D Residual Convolution Network to Improve Low-Dose CT Imaging

AU - Yin, Xiangrui

AU - Coatrieux, Jean Louis

AU - Zhao, Qianlong

AU - Liu, Jin

AU - Yang, Wei

AU - Yang, Jian

AU - Quan, Guotao

AU - Chen, Yang

AU - Shu, Huazhong

AU - Luo, Limin

PY - 2019/12

Y1 - 2019/12

N2 - The wide applications of X-ray computed tomography (CT) bring low-dose CT (LDCT) into a clinical prerequisite, but reducing the radiation exposure in CT often leads to significantly increased noise and artifacts, which might lower the judgment accuracy of radiologists. In this paper, we put forward a domain progressive 3D residual convolution network (DP-ResNet) for the LDCT imaging procedure that contains three stages: sinogram domain network (SD-net), filtered back projection (FBP), and image domain network (ID-net). Though both are based on the residual network structure, the SD-net and ID-net provide complementary effect on improving the final LDCT quality. The experimental results with both simulated and real projection data show that this domain progressive deep-learning network achieves significantly improved performance by combing the network processing in the two domains.

AB - The wide applications of X-ray computed tomography (CT) bring low-dose CT (LDCT) into a clinical prerequisite, but reducing the radiation exposure in CT often leads to significantly increased noise and artifacts, which might lower the judgment accuracy of radiologists. In this paper, we put forward a domain progressive 3D residual convolution network (DP-ResNet) for the LDCT imaging procedure that contains three stages: sinogram domain network (SD-net), filtered back projection (FBP), and image domain network (ID-net). Though both are based on the residual network structure, the SD-net and ID-net provide complementary effect on improving the final LDCT quality. The experimental results with both simulated and real projection data show that this domain progressive deep-learning network achieves significantly improved performance by combing the network processing in the two domains.

KW - Low dose computed tomography (LDCT)

KW - artifacts reduction

KW - deep learning

KW - residual network

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Domain Progressive 3D Residual Convolution Network to Improve Low-Dose CT Imaging

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