Hai Shu

Assistant Professor of Biostatistics

Professional overview

Dr. Hai Shu is an Assistant Professor in the Department of Biostatistics at New York University. He earned a Ph.D. in Biostatistics from University of Michigan and a B.S. in Information and Computational Science from Harbin Institute of Technology in China.

His research interests include high-dimensional data analysis (esp. data integration), machine/deep learning, medical image analysis (e.g., PET, MRI, Mammography), and their applications in Alzheimer’s disease, brain tumors, breast cancer, etc. He has published relevant papers in top-tier journals and conference, such as The Annals of Statistics, Journal of the American Statistical Association, Biometrics, and AAAI Conference on Artificial Intelligence. He has also served as a reviewer on related topics for Journal of the American Statistical Association, Statistica Sinica, International Joint Conference on Artificial Intelligence, etc.

Prior to joining NYU, Dr. Hai Shu was a Postdoctoral Fellow in the Department of Biostatistics at The University of Texas MD Anderson Cancer Center. 

View Dr. Hai Shu's website at https://wp.nyu.edu/haishu

Education

Postdoctoral Fellow, Department of Biostatistics, The University of Texas MD Anderson Cancer Center, USA

Ph.D. in Biostatistics, Department of Biostatistics, University of Michigan, Ann Arbor, USA

M.S. in Biostatistics, Department of Biostatistics, University of Michigan, Ann Arbor, USA

B.S. in Information and Computational Science, Department of Mathematics, Harbin Institute of Technology (哈尔滨工业大学), China

Areas of research and study

Alzheimer’s disease

Brain tumors

Breast cancer

Deep learning

High-dimensional data analysis/integration

Machine learning

Medical image analysis

Spatial/temporal data analysis

Publications

Publications

Contrast-free identification of glioma blood-brain barrier status via generative diffusion AI and non-contrast MRI

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CorrDA: correlation-matrix driven discriminant analysis

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Unleashing Diffusion and State Space Models for Medical Image Segmentation

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Conditional Diffusion Models Based Conditional Independence Testing

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Enhancing missing data imputation through combined bipartite graph and complete directed graph

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NCCT-to-CECT synthesis with contrast-enhanced knowledge and anatomical perception for multi-organ segmentation in non-contrast CT images

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UKAN-EP: enhancing U-KAN with efficient attention and pyramid aggregation for 3D multi-modal MRI brain tumor segmentation

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Comments on : Data integration via analysis of subspaces (DIVAS)

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DeepFDR : A Deep Learning-based False Discovery Rate Control Method for Neuroimaging Data

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Multi-Scale Tokens-Aware Transformer Network for Multi-Region and Multi-Sequence MR-to-CT Synthesis in a Single Model

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A generic fundus image enhancement network boosted by frequency self-supervised representation learning

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Cross-Task Feedback Fusion GAN for Joint MR-CT Synthesis and Segmentation of Target and Organs-At-Risk

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Domain Adaptative Retinal Image Quality Assessment with Knowledge Distillation Using Competitive Teacher-Student Network

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K-Nearest-Neighbor Local Sampling Based Conditional Independence Testing

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QACL : Quartet attention aware closed-loop learning for abdominal MR-to-CT synthesis via simultaneous registration

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Self-Supervision Boosted Retinal Vessel Segmentation for Cross-Domain Data

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United multi-task learning for abdominal contrast-enhanced CT synthesis through joint deformable registration

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A Comparative Study of non-deep Learning, Deep Learning, and Ensemble Learning Methods for Sunspot Number Prediction

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Big Data and Machine Learning in Oncology

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BiTr-Unet : A CNN-Transformer Combined Network for MRI Brain Tumor Segmentation

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CDPA : Common and distinctive pattern analysis between high-dimensional datasets

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D-GCCA: Decomposition-based Generalized Canonical Correlation Analysis for Multi-view High-dimensional Data.

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mFI-PSO : A Flexible and Effective Method in Adversarial Image Generation for Deep Neural Networks

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Structure-Consistent Restoration Network for Cataract Fundus Image Enhancement

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A deep learning approach to re-create raw full-field digital mammograms for breast density and texture analysis

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