部分代表性论文如下(#第一作者, *通讯作者),已发表全部论文可见谷歌学术
· Zhang Y.#, Liu G., Liu Y., Xie S., Gu J.*, Liu J., Huang Z., Ji X., Lyu T.*, Xi Y., Zhu S., Yang J., Chen Y.* (2025). GDP-Net: Global dependency-enhanced Dual-domain Parallel Network for Ring Artifact Removal. IEEE Transactions on Medical Imaging, Early Access.
· Hu D.#, Zhang C., Fei X., Yao Y., Xi Y., Liu J., Zhang Y.*, Gouenou C., Jean Louis C., Chen Y.* (2024). DPI-MoCo: Deep Prior Image Constrained Motion Compensation Reconstruction for 4D CBCT. IEEE Transactions on Medical Imaging, 44(3), 1243-1256.
· Zhang Y.#, Hu D.*, Li W., Zhang W., Chen G., Chen R. C., Chen Y., Gao H. (2025). 2V-CBCT: Two-Orthogonal-Projection based CBCT Reconstruction and Dose Calculation for Radiation Therapy using Real Projection Data. IEEE Transactions on Medical Imaging, 44(1), 284-296.
· Zang S.#, Zhang Y.*, Hu D., ..., Yang C.*, ..., & Chen Y. (2024). Coarse-to-fine learning for planning CT-enhanced limited-angle CBCT reconstruction. IEEE Transactions on Instrumentation and Measurement, 73, 1–15.
· Tao Y.#, Zhang Z., Hu D., ..., Zhang Y.*, Xie S., Yao Y., Chen Y. (2024). Prior image-constrained iterative reconstruction with adaptive step size for limited-angle CBCT. IEEE Transactions on Instrumentation and Measurement, 73, 1–13.
· Ji X.#, Lu Y., Zhuo X., Zhang Y.*, Zhu S., & Chen Y.* (2023). A geometrical calibration method for C-arm CT based on a nonlinear registration model. IEEE Transactions on Instrumentation and Measurement, 72, 1–13.
· Zhang Y.#, Hu D., Yan Z., Zhao Q., Quan G., Luo S., ... & Chen Y.* (2023). TIME-Net: Transformer-integrated multi-encoder network for limited-angle artifact removal in dual-energy CBCT. Medical Image Analysis, 83, 102650.
· Zhang Y.#, Hu D., Hao S., Liu J., Quan G., Zhang Y., ... & Chen Y.* (2022). DREAM-Net: Deep residual error iterative minimization network for sparse-view CT reconstruction. IEEE Journal of Biomedical and Health Informatics, 27(1), 480-491.
· Zhang Y.#, Hu D., Lyu T., Quan G., Xiang J., Coatrieux G., ... & Chen Y.* (2022). SPIE-DIR: Self-Prior Information Enhanced Deep Iterative Reconstruction Using Two Complementary Limited-Angle Scans for DECT. IEEE Transactions on Instrumentation and Measurement, 72, 1-12.
· Zhang Y.#, Hu D., Lyu T., Zhu J.*, Quan G., Xiang J., ... & Chen Y.* (2022). PIE-ARNet: Prior Image Enhanced Artifact Removal Network for Limited-Angle DECT. IEEE Transactions on Instrumentation and Measurement, 72, 1-12.
· Zhang Y.#, Hu D., Zhao Q., Quan G., Liu J., Liu, Q., ... & Yu H. (2021). CLEAR: comprehensive learning enabled adversarial reconstruction for subtle structure enhanced low-dose CT imaging. IEEE Transactions on Medical Imaging, 40(11), 3089-3101.
· Zhang Y.#, Lyu T., Ge R., Zhao Q., Hu D., Zhang L., ... & Chen Y.* (2021). CD-Net: Comprehensive domain network with spectral complementary for DECT sparse-view reconstruction. IEEE Transactions on Computational Imaging, 7, 436-447.
· He Z.#, Zhang Y.#, Guan Y., Guan B., Niu S., Zhang Y., ... & Liu, Q.* (2022). Iterative reconstruction for low-dose CT using deep gradient priors of generative model. IEEE Transactions on Radiation and Plasma Medical Sciences, 6(7), 741-754.
· Zhang Y.#, Su T., ..., Chen Y., Zheng H., Liang D., & Ge Y.* (2020). Dual-energy CT reconstruction using deep mutual-domain knowledge for basis decomposition and denoising. SPIE Medical Imaging, 2020, Houston, Texas, United States.
