Name
Playground
About
FAQ
GitHub
Playground
Shortest Path Finder
Community Detector
Connected Papers
Author Trending
Claudia Calabrese
Hao Mao
Peter Malec
Mary-anne Williams
Zhengwen Shang
Giovanni Venturelli
Dirk Hamann
Chen Ma
Radu Timofte
Kuanrui Yin
Home
/
Author
/
YUTING HE
Author Info
Open Visualization
Name
Affiliation
Papers
YUTING HE
Southeast Univ, Minist Educ, Key Lab Comp Network & Informat Integrat, LIST, Nanjing, Peoples R China
13
Collaborators
Citations
PageRank
72
5
4.45
Referers
Referees
References
24
302
55
Search Limit
100
302
Publications (13 rows)
Collaborators (72 rows)
Referers (24 rows)
Referees (100 rows)
Title
Citations
PageRank
Year
MNet: Rethinking 2D/3D Networks for Anisotropic Medical Image Segmentation.
0
0.34
2022
Few-Shot Learning for Deformable Medical Image Registration With Perception-Correspondence Decoupling and Reverse Teaching
1
0.35
2022
Automated segmentation of normal and diseased coronary arteries-The ASOCA challenge
0
0.34
2022
MVSGAN: Spatial-Aware Multi-View CMR Fusion for Accurate 3D Left Ventricular Myocardium Segmentation
0
0.34
2022
X-CTRSNet: 3D cervical vertebra CT reconstruction and segmentation directly from 2D X-ray images
0
0.34
2022
XMorpher: Full Transformer for Deformable Medical Image Registration via Cross Attention
0
0.34
2022
EnMcGAN: Adversarial Ensemble Learning for 3D Complete Renal Structures Segmentation
0
0.34
2021
CPNet: Cycle Prototype Network for Weakly-Supervised 3D Renal Compartments Segmentation on CT Images
0
0.34
2021
Examinee-Examiner Network: Weakly Supervised Accurate Coronary Lumen Segmentation Using Centerline Constraint
0
0.34
2021
Meta grayscale adaptive network for 3D integrated renal structures segmentation
1
0.35
2021
Thin Semantics Enhancement via High-Frequency Priori Rule for Thin Structures Segmentation
0
0.34
2021
Dense biased networks with deep priori anatomy and hard region adaptation: Semi-supervised learning for fine renal artery segmentation.
1
0.35
2020
DPA-DenseBiasNet: Semi-supervised 3D Fine Renal Artery Segmentation with Dense Biased Network and Deep Priori Anatomy.
2
0.36
2019
1