Your search keyword '"Zhong, Xinyi"' showing total 2 results

1. Super-resolution image reconstruction from sparsity regularization and deep residual-learned priors.

Author

Zhong, Xinyi, Liang, Ningning, Cai, Ailong, Yu, Xiaohuan, Li, Lei, and Yan, Bin

Subjects

*IMAGE reconstruction, *HIGH resolution imaging, *DIAGNOSIS, *TRANSFER functions, *IMAGE analysis, *COMPUTED tomography

Abstract

BACKGROUND: Computed tomography (CT) plays an important role in the field of non-destructive testing. However, conventional CT images often have blurred edge and unclear texture, which is not conducive to the follow-up medical diagnosis and industrial testing work. OBJECTIVE: This study aims to generate high-resolution CT images using a new CT super-resolution reconstruction method combining with the sparsity regularization and deep learning prior. METHODS: The new method reconstructs CT images through a reconstruction model incorporating image gradient L0-norm minimization and deep image priors using a plug-and-play super-resolution framework. The deep learning priors are learned from a deep residual network and then plugged into the proposed new framework, and alternating direction method of multipliers is utilized to optimize the iterative solution of the model. RESULTS: The simulation data analysis results show that the new method improves the signal-to-noise ratio (PSNR) by 7% and the modulation transfer function (MTF) curves show that the value of MTF50 increases by 0.02 factors compared with the result of deep plug-and-play super-resolution. Additionally, the real CT image data analysis results show that the new method improves the PSNR by 5.1% and MTF50 by 0.11 factors. CONCLUSION: Both simulation and real data experiments prove that the proposed new CT super-resolution method using deep learning priors can reconstruct CT images with lower noise and better detail recovery. This method is flexible, effective and extensive for low-resolution CT image super-resolution. [ABSTRACT FROM AUTHOR]

Published

2023

2. Total variation combining nonlocal means filtration for image reconstruction in X-ray computed tomography.

Author

Cai, Ailong, Wang, Yizhong, Zhong, Xinyi, Yu, Xiaohuan, Zheng, Zhizhong, Wang, Linyuan, Li, Lei, and Yan, Bin

Subjects

IMAGE reconstruction, COMPUTED tomography, X-ray imaging, STANDARD deviations

Abstract

BACKGROUND: Image reconstruction for realistic medical images under incomplete observation is still one of the core tasks for computed tomography (CT). However, the stair-case artifacts of Total variation (TV) based ones have restricted the usage of the reconstructed images. OBJECTIVE: This work aims to propose and test an accurate and efficient algorithm to improve reconstruction quality under the idea of synergy between local and nonlocal regularizations. METHODS: The total variation combining the nonlocal means filtration is proposed and the alternating direction method of multipliers is utilized to develop an efficient algorithm. The first order approximation of linear expansion at intermediate point is applied to overcome the computation of the huge CT system matrix. RESULTS: The proposed method improves root mean squared error by 25.6% compared to the recent block-matching sparsity regularization (BMSR) on simulation dataset of 19 views. The structure similarities of image of the new method is higher than 0.95, while that of BMSR is about 0.92. Moreover, on real rabbit dataset of 20 views, the peak signal-to-noise ratio (PSNR) of the new method is 36.84, while using other methods PSNR are lower than 35.81. CONCLUSIONS: The proposed method shows advantages on noise suppression and detail preservations over the competing algorithms used in CT image reconstruction. [ABSTRACT FROM AUTHOR]

Published

2022