Alert button
Picture for Rongfei Jia

Rongfei Jia

Alert button

NeuDA: Neural Deformable Anchor for High-Fidelity Implicit Surface Reconstruction

Mar 04, 2023
Bowen Cai, Jinchi Huang, Rongfei Jia, Chengfei Lv, Huan Fu

Figure 1 for NeuDA: Neural Deformable Anchor for High-Fidelity Implicit Surface Reconstruction
Figure 2 for NeuDA: Neural Deformable Anchor for High-Fidelity Implicit Surface Reconstruction
Figure 3 for NeuDA: Neural Deformable Anchor for High-Fidelity Implicit Surface Reconstruction
Figure 4 for NeuDA: Neural Deformable Anchor for High-Fidelity Implicit Surface Reconstruction
Viaarxiv icon

3D Scene Creation and Rendering via Rough Meshes: A Lighting Transfer Avenue

Dec 04, 2022
Yujie Li, Bowen Cai, Yuqin Liang, Rongfei Jia, Binqiang Zhao, Mingming Gong, Huan Fu

Figure 1 for 3D Scene Creation and Rendering via Rough Meshes: A Lighting Transfer Avenue
Figure 2 for 3D Scene Creation and Rendering via Rough Meshes: A Lighting Transfer Avenue
Figure 3 for 3D Scene Creation and Rendering via Rough Meshes: A Lighting Transfer Avenue
Figure 4 for 3D Scene Creation and Rendering via Rough Meshes: A Lighting Transfer Avenue
Viaarxiv icon

DCCF: Deep Comprehensible Color Filter Learning Framework for High-Resolution Image Harmonization

Jul 13, 2022
Ben Xue, Shenghui Ran, Quan Chen, Rongfei Jia, Binqiang Zhao, Xing Tang

Figure 1 for DCCF: Deep Comprehensible Color Filter Learning Framework for High-Resolution Image Harmonization
Figure 2 for DCCF: Deep Comprehensible Color Filter Learning Framework for High-Resolution Image Harmonization
Figure 3 for DCCF: Deep Comprehensible Color Filter Learning Framework for High-Resolution Image Harmonization
Figure 4 for DCCF: Deep Comprehensible Color Filter Learning Framework for High-Resolution Image Harmonization
Viaarxiv icon

Ray Priors through Reprojection: Improving Neural Radiance Fields for Novel View Extrapolation

May 12, 2022
Jian Zhang, Yuanqing Zhang, Huan Fu, Xiaowei Zhou, Bowen Cai, Jinchi Huang, Rongfei Jia, Binqiang Zhao, Xing Tang

Figure 1 for Ray Priors through Reprojection: Improving Neural Radiance Fields for Novel View Extrapolation
Figure 2 for Ray Priors through Reprojection: Improving Neural Radiance Fields for Novel View Extrapolation
Figure 3 for Ray Priors through Reprojection: Improving Neural Radiance Fields for Novel View Extrapolation
Figure 4 for Ray Priors through Reprojection: Improving Neural Radiance Fields for Novel View Extrapolation
Viaarxiv icon

NeRF-Editing: Geometry Editing of Neural Radiance Fields

May 10, 2022
Yu-Jie Yuan, Yang-Tian Sun, Yu-Kun Lai, Yuewen Ma, Rongfei Jia, Lin Gao

Figure 1 for NeRF-Editing: Geometry Editing of Neural Radiance Fields
Figure 2 for NeRF-Editing: Geometry Editing of Neural Radiance Fields
Figure 3 for NeRF-Editing: Geometry Editing of Neural Radiance Fields
Figure 4 for NeRF-Editing: Geometry Editing of Neural Radiance Fields
Viaarxiv icon

Modeling Indirect Illumination for Inverse Rendering

Apr 14, 2022
Yuanqing Zhang, Jiaming Sun, Xingyi He, Huan Fu, Rongfei Jia, Xiaowei Zhou

Figure 1 for Modeling Indirect Illumination for Inverse Rendering
Figure 2 for Modeling Indirect Illumination for Inverse Rendering
Figure 3 for Modeling Indirect Illumination for Inverse Rendering
Figure 4 for Modeling Indirect Illumination for Inverse Rendering
Viaarxiv icon

Data-Free Evaluation of User Contributions in Federated Learning

Aug 24, 2021
Hongtao Lv, Zhenzhe Zheng, Tie Luo, Fan Wu, Shaojie Tang, Lifeng Hua, Rongfei Jia, Chengfei Lv

Figure 1 for Data-Free Evaluation of User Contributions in Federated Learning
Figure 2 for Data-Free Evaluation of User Contributions in Federated Learning
Figure 3 for Data-Free Evaluation of User Contributions in Federated Learning
Figure 4 for Data-Free Evaluation of User Contributions in Federated Learning
Viaarxiv icon

Exploiting Diverse Characteristics and Adversarial Ambivalence for Domain Adaptive Segmentation

Jan 07, 2021
Bowen Cai, Huan Fu, Rongfei Jia, Binqiang Zhao, Hua Li, Yinghui Xu

Figure 1 for Exploiting Diverse Characteristics and Adversarial Ambivalence for Domain Adaptive Segmentation
Figure 2 for Exploiting Diverse Characteristics and Adversarial Ambivalence for Domain Adaptive Segmentation
Figure 3 for Exploiting Diverse Characteristics and Adversarial Ambivalence for Domain Adaptive Segmentation
Figure 4 for Exploiting Diverse Characteristics and Adversarial Ambivalence for Domain Adaptive Segmentation
Viaarxiv icon