Alert button
Picture for S. Kevin Zhou

S. Kevin Zhou

Alert button

MONAI: An open-source framework for deep learning in healthcare

Nov 04, 2022
M. Jorge Cardoso, Wenqi Li, Richard Brown, Nic Ma, Eric Kerfoot, Yiheng Wang, Benjamin Murrey, Andriy Myronenko, Can Zhao, Dong Yang, Vishwesh Nath, Yufan He, Ziyue Xu, Ali Hatamizadeh, Andriy Myronenko, Wentao Zhu, Yun Liu, Mingxin Zheng, Yucheng Tang, Isaac Yang, Michael Zephyr, Behrooz Hashemian, Sachidanand Alle, Mohammad Zalbagi Darestani, Charlie Budd, Marc Modat, Tom Vercauteren, Guotai Wang, Yiwen Li, Yipeng Hu, Yunguan Fu, Benjamin Gorman, Hans Johnson, Brad Genereaux, Barbaros S. Erdal, Vikash Gupta, Andres Diaz-Pinto, Andre Dourson, Lena Maier-Hein, Paul F. Jaeger, Michael Baumgartner, Jayashree Kalpathy-Cramer, Mona Flores, Justin Kirby, Lee A. D. Cooper, Holger R. Roth, Daguang Xu, David Bericat, Ralf Floca, S. Kevin Zhou, Haris Shuaib, Keyvan Farahani, Klaus H. Maier-Hein, Stephen Aylward, Prerna Dogra, Sebastien Ourselin, Andrew Feng

Figure 1 for MONAI: An open-source framework for deep learning in healthcare
Figure 2 for MONAI: An open-source framework for deep learning in healthcare
Figure 3 for MONAI: An open-source framework for deep learning in healthcare
Figure 4 for MONAI: An open-source framework for deep learning in healthcare
Viaarxiv icon

Active CT Reconstruction with a Learned Sampling Policy

Nov 03, 2022
Ce Wang, Kun Shang, Haimiao Zhang, Shang Zhao, Dong Liang, S. Kevin Zhou

Figure 1 for Active CT Reconstruction with a Learned Sampling Policy
Figure 2 for Active CT Reconstruction with a Learned Sampling Policy
Figure 3 for Active CT Reconstruction with a Learned Sampling Policy
Figure 4 for Active CT Reconstruction with a Learned Sampling Policy
Viaarxiv icon

DA-VSR: Domain Adaptable Volumetric Super-Resolution For Medical Images

Oct 11, 2022
Cheng Peng, S. Kevin Zhou, Rama Chellappa

Viaarxiv icon

A Survey of Fairness in Medical Image Analysis: Concepts, Algorithms, Evaluations, and Challenges

Sep 27, 2022
Zikang Xu, Jun Li, Qingsong Yao, Han Li, Xin Shi, S. Kevin Zhou

Figure 1 for A Survey of Fairness in Medical Image Analysis: Concepts, Algorithms, Evaluations, and Challenges
Figure 2 for A Survey of Fairness in Medical Image Analysis: Concepts, Algorithms, Evaluations, and Challenges
Figure 3 for A Survey of Fairness in Medical Image Analysis: Concepts, Algorithms, Evaluations, and Challenges
Figure 4 for A Survey of Fairness in Medical Image Analysis: Concepts, Algorithms, Evaluations, and Challenges
Viaarxiv icon

Stabilize, Decompose, and Denoise: Self-Supervised Fluoroscopy Denoising

Aug 30, 2022
Ruizhou Liu, Qiang Ma, Zhiwei Cheng, Yuanyuan Lyu, Jianji Wang, S. Kevin Zhou

Figure 1 for Stabilize, Decompose, and Denoise: Self-Supervised Fluoroscopy Denoising
Figure 2 for Stabilize, Decompose, and Denoise: Self-Supervised Fluoroscopy Denoising
Figure 3 for Stabilize, Decompose, and Denoise: Self-Supervised Fluoroscopy Denoising
Figure 4 for Stabilize, Decompose, and Denoise: Self-Supervised Fluoroscopy Denoising
Viaarxiv icon

REGAS: REspiratory-GAted Synthesis of Views for Multi-Phase CBCT Reconstruction from a single 3D CBCT Acquisition

Aug 17, 2022
Cheng Peng, Haofu Liao, S. Kevin Zhou, Rama Chellappa

Figure 1 for REGAS: REspiratory-GAted Synthesis of Views for Multi-Phase CBCT Reconstruction from a single 3D CBCT Acquisition
Figure 2 for REGAS: REspiratory-GAted Synthesis of Views for Multi-Phase CBCT Reconstruction from a single 3D CBCT Acquisition
Figure 3 for REGAS: REspiratory-GAted Synthesis of Views for Multi-Phase CBCT Reconstruction from a single 3D CBCT Acquisition
Figure 4 for REGAS: REspiratory-GAted Synthesis of Views for Multi-Phase CBCT Reconstruction from a single 3D CBCT Acquisition
Viaarxiv icon

Transforming medical imaging with Transformers? A comparative review of key properties, current progresses, and future perspectives

Jun 03, 2022
Jun Li, Junyu Chen, Yucheng Tang, Ce Wang, Bennett A. Landman, S. Kevin Zhou

Figure 1 for Transforming medical imaging with Transformers? A comparative review of key properties, current progresses, and future perspectives
Figure 2 for Transforming medical imaging with Transformers? A comparative review of key properties, current progresses, and future perspectives
Figure 3 for Transforming medical imaging with Transformers? A comparative review of key properties, current progresses, and future perspectives
Figure 4 for Transforming medical imaging with Transformers? A comparative review of key properties, current progresses, and future perspectives
Viaarxiv icon

DFTR: Depth-supervised Fusion Transformer for Salient Object Detection

Apr 11, 2022
Heqin Zhu, Xu Sun, Yuexiang Li, Kai Ma, S. Kevin Zhou, Yefeng Zheng

Figure 1 for DFTR: Depth-supervised Fusion Transformer for Salient Object Detection
Figure 2 for DFTR: Depth-supervised Fusion Transformer for Salient Object Detection
Figure 3 for DFTR: Depth-supervised Fusion Transformer for Salient Object Detection
Figure 4 for DFTR: Depth-supervised Fusion Transformer for Salient Object Detection
Viaarxiv icon

SATr: Slice Attention with Transformer for Universal Lesion Detection

Mar 13, 2022
Han Li, Long Chen, Hu Han, S. Kevin Zhou

Figure 1 for SATr: Slice Attention with Transformer for Universal Lesion Detection
Figure 2 for SATr: Slice Attention with Transformer for Universal Lesion Detection
Figure 3 for SATr: Slice Attention with Transformer for Universal Lesion Detection
Figure 4 for SATr: Slice Attention with Transformer for Universal Lesion Detection
Viaarxiv icon

DATR: Domain-adaptive transformer for multi-domain landmark detection

Mar 12, 2022
Heqin Zhu, Qingsong Yao, S. Kevin Zhou

Figure 1 for DATR: Domain-adaptive transformer for multi-domain landmark detection
Figure 2 for DATR: Domain-adaptive transformer for multi-domain landmark detection
Figure 3 for DATR: Domain-adaptive transformer for multi-domain landmark detection
Figure 4 for DATR: Domain-adaptive transformer for multi-domain landmark detection
Viaarxiv icon