Difference between revisions of "Shuo"

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'''dataset''': Deep learning data augmentation and operations. https://gitlab.com/shan-deep-networks/dataset
 
'''dataset''': Deep learning data augmentation and operations. https://gitlab.com/shan-deep-networks/dataset
  
'''image-processing-3d''': 3D Image transformation and operations. https://gitlab.com/shan-utils/image-processing-3d
+
'''image-processing-3d''': 3D image transformation and operations. https://gitlab.com/shan-utils/image-processing-3d
  
 
{{h5 | Singularity container images}}
 
{{h5 | Singularity container images}}

Revision as of 00:11, 5 October 2019

Education

Johns Hopkins University, Baltimore, MD 2016–present

Doctor of Philosophy in Biomedical Engineering

Johns Hopkins University, Baltimore, MD 2014–2016

Master’s of Science and Engineering in Biomedical Engineering

Tsinghua University, Beijing, China 2010–2014

Bachelor of Engineering in Biomedical Engineering

Minor in Computer Science & Technology

Research

Image Analysis and Communications Laboratory, Johns Hopkins University, Baltimore, MD

Cerebellar Parcellation and Analysis 2016–present

Laboratory of Behavioral Neuroscience, NIA, NIH, Baltimore, MD

Longitudinal Analysis of the Cerebellum 2016–2019

Dynamic Imaging Laboratory, Johns Hopkins University School of Medicine, Baltimore, MD

Cardiac MRI Heartbeat-Type Triggering System During Arrhythmia 2015–2016

Polyhedral Phantom Framework with Analytical Fourier Transform 2014–2016

Tsinghua University, Center for Biomedical Imaging Research, Beijing, China

Unsupervised Machine Learning Based Motion Compensation in MRI 2013–2014

Code and Packages

Some documented publicly available packages

dataset: Deep learning data augmentation and operations. https://gitlab.com/shan-deep-networks/dataset

image-processing-3d: 3D image transformation and operations. https://gitlab.com/shan-utils/image-processing-3d

Singularity container images

Upcoming

Activities

CHAOS ISBI 2019 challenge the second place in Tasks 3 and 5.

Publications

Shuo Han, Aaron Carass, and Jerry L. Prince. "Hierarchical parcellation of the cerebellum." MICCAI, 2019.

Hao Li, Can Zhao, Shuo Han, Aaron Carass, and Jerry L. Prince. "A resolution measurement algorithm for MRI." ISBI, 2019.

Shuo Han, Yufan He, Aaron Carass, Sarah H. Ying, and Jerry L. Prince. "Cerebellum parcellation with convolutional neural networks." SPIE, 2019.

Lianrui Zuo, Shuo Han, Aaron Carass, Sarah H. Ying, Chiadikaobi U. Onyike, and Jerry L. Prince. "Automatic quality control using hierarchical shape analysis for cerebellum parcellation." SPIE, 2019.

Muhan Shao, Shuo Han, Aaron Carass, Xiang Li, Ari M. Blitz, Jaehoon Shin, Jerry L. Prince, and Lotta M. Ellingsen. "Brain ventricle parcellation using a deep neural network: Application to patients with ventriculomegaly." NeuroImage: Clinical, 2019

Muhan Shao, Shuo Han, Aaron Carass, Xiang Li, Ari M. Blitz, Jerry L. Prince, and Lotta M. Ellingsen. "Shortcomings of Ventricle Segmentation Using Deep Convolutional Networks." MICCAI workshop DLF (Deep Learning Fails), 2018.

Aaron Carass, Jennifer L. Cuzzocreo, Shuo Han, Carlos R. Hernandez-Castillo, Paul E. Rasser, Melanie Ganz, Vincent Beliveau, et al. "Comparing fully automated state-of-the-art cerebellum parcellation from magnetic resonance images." NeuroImage, 2018.

Lianrui Zuo, Aaron Carass, Shuo Han, and Jerry L. Prince. "Automatic outlier detection using hidden Markov model for cerebellar lobule segmentation." SPIE, 2018.

Shuo Han, and Daniel A. Herzka. "Software Framework for Realistic MRI Simulations Using the Polyhedral Fourier Transform." SASHIMI, 2016.

Tri M. Ngo, George S. K. Fung, Shuo Han, Min Chen, Jerry L. Prince, Benjamin M. W. Tsui, Elliot R. McVeigh, and Daniel A. Herzka, “Realistic analytical polyhedral MRI phantoms.” Magnetic Resonance in Medicine, 2015.

Shuo Han and Daniel A. Herzka, "PolyFT: a Freely-available optimized MATLAB implementation of the polyhedral Fourier transform for analytical simulations in MRI." presented at ISMRM 24th Meeting, Singapore, 2016.

Shuo Han and Daniel A. Herzka, "Polyhedral phantom framework with analytical Fourier transform with intensity gradients." presented at ISMRM 23rd Meeting, Toronto, Canada, 2015.