/ PUBLICATIONS
Peer-reviewed work.
MICCAI, ISBI, WACV, Medical Physics — through-line is rewriting MR image acquisition with deep learning: densely-connected super-resolution, dynamic reconstruction, multi-organ segmentation.
MICCAI 2018
Efficient and Accurate MRI Super-Resolution using a Generative Adversarial Network and 3D Multi-Level Densely Connected Network
A GAN with a 3D densely-connected generator that recovers high-resolution detail from low-resolution MRI — sharper scans without more scan time.
Y Chen, F Shi, AG Christodoulou, Y Xie, Z Zhou, D Li
ISBI 2018
Brain MRI Super Resolution Using 3D Deep Densely Connected Neural Networks
3D deep densely-connected networks for brain-MRI super-resolution — the earlier study the MICCAI work built on.
Y Chen, Y Xie, Z Zhou, F Shi, AG Christodoulou, D Li
Medical Physics 2020
Fully Automated Multi-Organ Segmentation in Abdominal Magnetic Resonance Imaging with Deep Neural Networks
Deep networks that automatically delineate multiple organs across abdominal MRI — replacing slow manual contouring.
Y Chen, D Ruan, J Xiao, L Wang, B Sun, R Saouaf, W Yang, D Li, Z Fan
WACV 2020
Enhanced Generative Adversarial Network for 3D Brain MRI Super-Resolution
An enhanced adversarial network for 3D brain-MRI super-resolution (co-first author).
J Wang, Y Chen, Y Wu, J Shi, J Gee
arXiv 2020
MRI Super-Resolution with GAN and 3D Multi-Level DenseNet: Smaller, Faster, and Better
Journal extension of the super-resolution work — a smaller, faster model with better image quality.
Y Chen, AG Christodoulou, Z Zhou, F Shi, Y Xie, D Li
MICCAI 2019
Deep Learning Within a Priori Temporal Feature Spaces for Large-Scale Dynamic MR Image Reconstruction
Reconstructs large-scale dynamic (5D) MRI fast by learning inside a low-dimensional temporal-feature subspace.
Y Chen, JL Shaw, Y Xie, D Li, AG Christodoulou