Alert button
Picture for Wang Zhao

Wang Zhao

Alert button

T$^3$Bench: Benchmarking Current Progress in Text-to-3D Generation

Oct 04, 2023
Yuze He, Yushi Bai, Matthieu Lin, Wang Zhao, Yubin Hu, Jenny Sheng, Ran Yi, Juanzi Li, Yong-Jin Liu

Viaarxiv icon

MMPI: a Flexible Radiance Field Representation by Multiple Multi-plane Images Blending

Sep 30, 2023
Yuze He, Peng Wang, Yubin Hu, Wang Zhao, Ran Yi, Yong-Jin Liu, Wenping Wang

Figure 1 for MMPI: a Flexible Radiance Field Representation by Multiple Multi-plane Images Blending
Figure 2 for MMPI: a Flexible Radiance Field Representation by Multiple Multi-plane Images Blending
Figure 3 for MMPI: a Flexible Radiance Field Representation by Multiple Multi-plane Images Blending
Figure 4 for MMPI: a Flexible Radiance Field Representation by Multiple Multi-plane Images Blending
Viaarxiv icon

Indoor Scene Reconstruction with Fine-Grained Details Using Hybrid Representation and Normal Prior Enhancement

Sep 14, 2023
Sheng Ye, Yubin Hu, Matthieu Lin, Yu-Hui Wen, Wang Zhao, Wenping Wang, Yong-Jin Liu

Figure 1 for Indoor Scene Reconstruction with Fine-Grained Details Using Hybrid Representation and Normal Prior Enhancement
Figure 2 for Indoor Scene Reconstruction with Fine-Grained Details Using Hybrid Representation and Normal Prior Enhancement
Figure 3 for Indoor Scene Reconstruction with Fine-Grained Details Using Hybrid Representation and Normal Prior Enhancement
Figure 4 for Indoor Scene Reconstruction with Fine-Grained Details Using Hybrid Representation and Normal Prior Enhancement
Viaarxiv icon

O^2-Recon: Completing 3D Reconstruction of Occluded Objects in the Scene with a Pre-trained 2D Diffusion Model

Aug 18, 2023
Yubin Hu, Sheng Ye, Wang Zhao, Matthieu Lin, Yuze He, Yu-Hui Wen, Ying He, Yong-Jin Liu

Viaarxiv icon

ParticleSfM: Exploiting Dense Point Trajectories for Localizing Moving Cameras in the Wild

Jul 19, 2022
Wang Zhao, Shaohui Liu, Hengkai Guo, Wenping Wang, Yong-Jin Liu

Figure 1 for ParticleSfM: Exploiting Dense Point Trajectories for Localizing Moving Cameras in the Wild
Figure 2 for ParticleSfM: Exploiting Dense Point Trajectories for Localizing Moving Cameras in the Wild
Figure 3 for ParticleSfM: Exploiting Dense Point Trajectories for Localizing Moving Cameras in the Wild
Figure 4 for ParticleSfM: Exploiting Dense Point Trajectories for Localizing Moving Cameras in the Wild
Viaarxiv icon

A Confidence-based Iterative Solver of Depths and Surface Normals for Deep Multi-view Stereo

Jan 19, 2022
Wang Zhao, Shaohui Liu, Yi Wei, Hengkai Guo, Yong-Jin Liu

Figure 1 for A Confidence-based Iterative Solver of Depths and Surface Normals for Deep Multi-view Stereo
Figure 2 for A Confidence-based Iterative Solver of Depths and Surface Normals for Deep Multi-view Stereo
Figure 3 for A Confidence-based Iterative Solver of Depths and Surface Normals for Deep Multi-view Stereo
Figure 4 for A Confidence-based Iterative Solver of Depths and Surface Normals for Deep Multi-view Stereo
Viaarxiv icon

NerfingMVS: Guided Optimization of Neural Radiance Fields for Indoor Multi-view Stereo

Sep 03, 2021
Yi Wei, Shaohui Liu, Yongming Rao, Wang Zhao, Jiwen Lu, Jie Zhou

Figure 1 for NerfingMVS: Guided Optimization of Neural Radiance Fields for Indoor Multi-view Stereo
Figure 2 for NerfingMVS: Guided Optimization of Neural Radiance Fields for Indoor Multi-view Stereo
Figure 3 for NerfingMVS: Guided Optimization of Neural Radiance Fields for Indoor Multi-view Stereo
Figure 4 for NerfingMVS: Guided Optimization of Neural Radiance Fields for Indoor Multi-view Stereo
Viaarxiv icon

Towards Better Generalization: Joint Depth-Pose Learning without PoseNet

Apr 03, 2020
Wang Zhao, Shaohui Liu, Yezhi Shu, Yong-Jin Liu

Figure 1 for Towards Better Generalization: Joint Depth-Pose Learning without PoseNet
Figure 2 for Towards Better Generalization: Joint Depth-Pose Learning without PoseNet
Figure 3 for Towards Better Generalization: Joint Depth-Pose Learning without PoseNet
Figure 4 for Towards Better Generalization: Joint Depth-Pose Learning without PoseNet
Viaarxiv icon

A Configuration-Space Decomposition Scheme for Learning-based Collision Checking

Nov 17, 2019
Yiheng Han, Wang Zhao, Jia Pan, Zipeng Ye, Ran Yi, Yong-Jin Liu

Figure 1 for A Configuration-Space Decomposition Scheme for Learning-based Collision Checking
Figure 2 for A Configuration-Space Decomposition Scheme for Learning-based Collision Checking
Figure 3 for A Configuration-Space Decomposition Scheme for Learning-based Collision Checking
Figure 4 for A Configuration-Space Decomposition Scheme for Learning-based Collision Checking
Viaarxiv icon

Conditional Single-view Shape Generation for Multi-view Stereo Reconstruction

Apr 21, 2019
Yi Wei, Shaohui Liu, Wang Zhao, Jiwen Lu, Jie Zhou

Figure 1 for Conditional Single-view Shape Generation for Multi-view Stereo Reconstruction
Figure 2 for Conditional Single-view Shape Generation for Multi-view Stereo Reconstruction
Figure 3 for Conditional Single-view Shape Generation for Multi-view Stereo Reconstruction
Figure 4 for Conditional Single-view Shape Generation for Multi-view Stereo Reconstruction
Viaarxiv icon