Jian-Feng Cai, Jae Kyu Choi(*), Ke Wei(*), Data Driven Tight Frame for Compressed Sensing MRI Reconstruction via Off-the-Grid Regularization, Accepted by SIAM J. Imaging Sci. http://arxiv.org/abs/1911.03150
Jae Kyu Choi, Bin Dong(*), Xiaoqun Zhang. An Edge Driven Wavelet Frame Model for Image Restoration. Appl. Comp. Harmonic Anal. 2020.
Chang Min Hyun, Kang Cheol Kim, Hyun Cheol Cho, Jae Kyu Choi(*), Jin Keun Seo, Framelet Pooling Aided Deep Learning Network : The Method to Process High Dimensional Medical Data, Accepted by Machine Learning: Science and Technology, 2020.
Didi Lv, Qingping Zhou, Jae Kyu Choi, Jinglai Li, Xiaoqun Zhang(*), Nonlocal TV-Gaussian Prior for Bayeian Inverse Problems with Application to Limited CT Reconstruction, Inverse Probl. Imaging, 2020.
Hyoung Suk Park, Jineon Baek, Sun Kyoung You, Jae Kyu Choi, Jin Keun Seo, Unpaired Image Denoising Using a Generative Adversarial Network in X-ray CT, IEEE Access. 2019.
Chenglong Bao, Jae Kyu Choi(*), Bin Dong. Whole Brain Susceptibility Mapping Using Harmonic Incompatibility Removal. SIAM J. Imaging Sci. 2019.
Jae Kyu Choi, Chenglong Bao(*), Xiaoqun Zhang(*) PET-MRI Joint Reconstruction by Joint Sparsity Based Tight Frame Regularization. SIAM J. Imaging Sci. 2018.
Hyoung Suk Park, Jae Kyu Choi, Jin Keun Seo. Characterization of Metal Artifacts in X-ray Computed Tomography. Comm. Pure. Appl. Math. 2017.
Jae Kyu Choi, Bin Dong, Xiaoqun Zhang(*) Limited Tomography Reconstruction via Tight Frame and Simulataneous Sinogram Extrapolation. J. Comp. Math. 2016.
Jae Kyu Choi, Hyoung Suk Park, Shuai Wang, Yi Wang, Jin Keun Seo(*) Inverse Problem in Quantitative Susceptibility Mapping. SIAM J. Imaging Sci. 2014.
Hyoung Suk Park, Jae Kyu Choi, Kyung-Ran Park, Kyung Sang Kim, Sang-Hwy Lee, Jong Chul Ye, Jin Keun Seo(*) Metal Artifact Reduction in CT by Identifying Missing Data Hidden in Metals. J. X-ray. Sci. Tech. 2013.
Chenglong Bao, Jian-Feng Cai, Jae Kyu Choi(*), Bin Dong, Ke Wei, Improved Harmonic Incompatibility Removal for Susceptibility Mapping via Reduction of Basis Mismatch, Submitted to J. Comput. Math.