Alert button
Picture for Jianfeng Wu

Jianfeng Wu

Alert button

for the Alzheimer's Disease Neuroimaging Initiative

Hierarchical-level rain image generative model based on GAN

Sep 06, 2023
Zhenyuan Liu, Tong Jia, Xingyu Xing, Jianfeng Wu, Junyi Chen

Figure 1 for Hierarchical-level rain image generative model based on GAN
Figure 2 for Hierarchical-level rain image generative model based on GAN
Figure 3 for Hierarchical-level rain image generative model based on GAN
Figure 4 for Hierarchical-level rain image generative model based on GAN
Viaarxiv icon

A Surface-Based Federated Chow Test Model for Integrating APOE Status, Tau Deposition Measure, and Hippocampal Surface Morphometry

Mar 31, 2023
Jianfeng Wu, Yi Su, Yanxi Chen, Wenhui Zhu, Eric M. Reiman, Richard J. Caselli, Kewei Chen, Paul M. Thompson, Junwen Wang, Yalin Wang

Figure 1 for A Surface-Based Federated Chow Test Model for Integrating APOE Status, Tau Deposition Measure, and Hippocampal Surface Morphometry
Figure 2 for A Surface-Based Federated Chow Test Model for Integrating APOE Status, Tau Deposition Measure, and Hippocampal Surface Morphometry
Figure 3 for A Surface-Based Federated Chow Test Model for Integrating APOE Status, Tau Deposition Measure, and Hippocampal Surface Morphometry
Figure 4 for A Surface-Based Federated Chow Test Model for Integrating APOE Status, Tau Deposition Measure, and Hippocampal Surface Morphometry
Viaarxiv icon

Relation-dependent Contrastive Learning with Cluster Sampling for Inductive Relation Prediction

Nov 22, 2022
Jianfeng Wu, Sijie Mai, Haifeng Hu

Figure 1 for Relation-dependent Contrastive Learning with Cluster Sampling for Inductive Relation Prediction
Figure 2 for Relation-dependent Contrastive Learning with Cluster Sampling for Inductive Relation Prediction
Figure 3 for Relation-dependent Contrastive Learning with Cluster Sampling for Inductive Relation Prediction
Figure 4 for Relation-dependent Contrastive Learning with Cluster Sampling for Inductive Relation Prediction
Viaarxiv icon

Improved Prediction of Beta-Amyloid and Tau Burden Using Hippocampal Surface Multivariate Morphometry Statistics and Sparse Coding

Oct 28, 2022
Jianfeng Wu, Yi Su, Wenhui Zhu, Negar Jalili Mallak, Natasha Lepore, Eric M. Reiman, Richard J. Caselli, Paul M. Thompson, Kewei Chen, Yalin Wang

Figure 1 for Improved Prediction of Beta-Amyloid and Tau Burden Using Hippocampal Surface Multivariate Morphometry Statistics and Sparse Coding
Figure 2 for Improved Prediction of Beta-Amyloid and Tau Burden Using Hippocampal Surface Multivariate Morphometry Statistics and Sparse Coding
Figure 3 for Improved Prediction of Beta-Amyloid and Tau Burden Using Hippocampal Surface Multivariate Morphometry Statistics and Sparse Coding
Figure 4 for Improved Prediction of Beta-Amyloid and Tau Burden Using Hippocampal Surface Multivariate Morphometry Statistics and Sparse Coding
Viaarxiv icon

Predicting Tau Accumulation in Cerebral Cortex with Multivariate MRI Morphometry Measurements, Sparse Coding, and Correntropy

Oct 20, 2021
Jianfeng Wu, Wenhui Zhu, Yi Su, Jie Gui, Natasha Lepore, Eric M. Reiman, Richard J. Caselli, Paul M. Thompson, Kewei Chen, Yalin Wang

Figure 1 for Predicting Tau Accumulation in Cerebral Cortex with Multivariate MRI Morphometry Measurements, Sparse Coding, and Correntropy
Figure 2 for Predicting Tau Accumulation in Cerebral Cortex with Multivariate MRI Morphometry Measurements, Sparse Coding, and Correntropy
Figure 3 for Predicting Tau Accumulation in Cerebral Cortex with Multivariate MRI Morphometry Measurements, Sparse Coding, and Correntropy
Figure 4 for Predicting Tau Accumulation in Cerebral Cortex with Multivariate MRI Morphometry Measurements, Sparse Coding, and Correntropy
Viaarxiv icon

Graph Capsule Aggregation for Unaligned Multimodal Sequences

Aug 17, 2021
Jianfeng Wu, Sijie Mai, Haifeng Hu

Figure 1 for Graph Capsule Aggregation for Unaligned Multimodal Sequences
Figure 2 for Graph Capsule Aggregation for Unaligned Multimodal Sequences
Figure 3 for Graph Capsule Aggregation for Unaligned Multimodal Sequences
Figure 4 for Graph Capsule Aggregation for Unaligned Multimodal Sequences
Viaarxiv icon

Developing Univariate Neurodegeneration Biomarkers with Low-Rank and Sparse Subspace Decomposition

Oct 26, 2020
Gang Wang, Qunxi Dong, Jianfeng Wu, Yi Su, Kewei Chen, Qingtang Su, Xiaofeng Zhang, Jinguang Hao, Tao Yao, Li Liu, Caiming Zhang, Richard J Caselli, Eric M Reiman, Yalin Wang

Figure 1 for Developing Univariate Neurodegeneration Biomarkers with Low-Rank and Sparse Subspace Decomposition
Figure 2 for Developing Univariate Neurodegeneration Biomarkers with Low-Rank and Sparse Subspace Decomposition
Figure 3 for Developing Univariate Neurodegeneration Biomarkers with Low-Rank and Sparse Subspace Decomposition
Figure 4 for Developing Univariate Neurodegeneration Biomarkers with Low-Rank and Sparse Subspace Decomposition
Viaarxiv icon