Alert button
Picture for Junjie Zhu

Junjie Zhu

Alert button

Multi-Energy Guided Image Translation with Stochastic Differential Equations for Near-Infrared Facial Expression Recognition

Dec 10, 2023
Bingjun Luo, Zewen Wang, Jinpeng Wang, Junjie Zhu, Xibin Zhao, Yue Gao

Viaarxiv icon

Hypergraph-Guided Disentangled Spectrum Transformer Networks for Near-Infrared Facial Expression Recognition

Dec 10, 2023
Bingjun Luo, Haowen Wang, Jinpeng Wang, Junjie Zhu, Xibin Zhao, Yue Gao

Figure 1 for Hypergraph-Guided Disentangled Spectrum Transformer Networks for Near-Infrared Facial Expression Recognition
Figure 2 for Hypergraph-Guided Disentangled Spectrum Transformer Networks for Near-Infrared Facial Expression Recognition
Figure 3 for Hypergraph-Guided Disentangled Spectrum Transformer Networks for Near-Infrared Facial Expression Recognition
Figure 4 for Hypergraph-Guided Disentangled Spectrum Transformer Networks for Near-Infrared Facial Expression Recognition
Viaarxiv icon

MVP: Meta Visual Prompt Tuning for Few-Shot Remote Sensing Image Scene Classification

Sep 17, 2023
Junjie Zhu, Yiying Li, Chunping Qiu, Ke Yang, Naiyang Guan, Xiaodong Yi

Viaarxiv icon

PVP: Pre-trained Visual Parameter-Efficient Tuning

Apr 26, 2023
Zhao Song, Ke Yang, Naiyang Guan, Junjie Zhu, Peng Qiao, Qingyong Hu

Figure 1 for PVP: Pre-trained Visual Parameter-Efficient Tuning
Figure 2 for PVP: Pre-trained Visual Parameter-Efficient Tuning
Figure 3 for PVP: Pre-trained Visual Parameter-Efficient Tuning
Figure 4 for PVP: Pre-trained Visual Parameter-Efficient Tuning
Viaarxiv icon

Network Enhancement: a general method to denoise weighted biological networks

Jun 01, 2018
Bo Wang, Armin Pourshafeie, Marinka Zitnik, Junjie Zhu, Carlos D. Bustamante, Serafim Batzoglou, Jure Leskovec

Figure 1 for Network Enhancement: a general method to denoise weighted biological networks
Figure 2 for Network Enhancement: a general method to denoise weighted biological networks
Figure 3 for Network Enhancement: a general method to denoise weighted biological networks
Figure 4 for Network Enhancement: a general method to denoise weighted biological networks
Viaarxiv icon

SIMLR: A Tool for Large-Scale Genomic Analyses by Multi-Kernel Learning

Jan 18, 2018
Bo Wang, Daniele Ramazzotti, Luca De Sano, Junjie Zhu, Emma Pierson, Serafim Batzoglou

Figure 1 for SIMLR: A Tool for Large-Scale Genomic Analyses by Multi-Kernel Learning
Figure 2 for SIMLR: A Tool for Large-Scale Genomic Analyses by Multi-Kernel Learning
Figure 3 for SIMLR: A Tool for Large-Scale Genomic Analyses by Multi-Kernel Learning
Figure 4 for SIMLR: A Tool for Large-Scale Genomic Analyses by Multi-Kernel Learning
Viaarxiv icon