Hui Huang
Most Recent Affiliation(s):
- Shenzhen University, Shenzhen VisuCA Key Lab / SIAT
Learning Jury Member:
Learning Presentation(s):
![UrbanBIS: A Large-scale Benchmark for Fine-grained Urban Building Instance Segmentation](https://history.siggraph.org/wp-content/uploads/2024/02/2023-Tech-Papers-Yang_UrbanBIS-a-Large-scale-Benchmark-for-Fine-grained-Urban-Building-Instance-Segmentation-150x150.jpg)
Type: [Technical Papers]
UrbanBIS: A Large-scale Benchmark for Fine-grained Urban Building Instance Segmentation Presenter(s): [Yang] [Xue] [Zhang] [Xie] [Fu] [Huang]
[SIGGRAPH 2023]
![Learning high-DOF reaching-and-grasping via dynamic representation of gripper-object interaction](https://history.siggraph.org/wp-content/uploads/2023/06/2022-Technical-Papers-She_-Learning-High-DOF-Reaching-and-grasping-via-Dynamic-Representation-of-Gripper-object-Interaction-150x150.jpg)
Type: [Technical Papers]
Learning high-DOF reaching-and-grasping via dynamic representation of gripper-object interaction Presenter(s): [She] [Hu] [Xu] [Liu] [Xu] [Huang]
[SIGGRAPH 2022]
![Photo-to-shape material transfer for diverse structures](https://history.siggraph.org/wp-content/uploads/2023/06/2022-Technical-Papers-Hu_-Photo-to-shape-Material-Transfer-for-Diverse-Structures-150x150.jpg)
Type: [Technical Papers]
Photo-to-shape material transfer for diverse structures Presenter(s): [Hu] [Su] [Chen] [Kaick] [Huang]
[SIGGRAPH 2022]
![WireRoom: model-guided explorative design of abstract wire art](https://history.siggraph.org/wp-content/uploads/2023/06/2021-Technical-Papers-Yang_WireRoom-Model-guided-Explorative-Design-of-Abstract-Wire-Art-150x150.jpg)
Type: [Technical Papers]
WireRoom: model-guided explorative design of abstract wire art Presenter(s): [Yang] [Xu] [Fu] [Huang]
[SIGGRAPH 2021]
![Graph2Plan: Learning Floorplan Generation From Layout Graphs](https://history.siggraph.org/wp-content/uploads/2023/02/2020-Technical-Papers-Hu_Graph2Plan-150x150.jpg)
Type: [Technical Papers]
Graph2Plan: Learning Floorplan Generation From Layout Graphs Presenter(s): [Hu] [Huang] [Tang] [Kaick] [Zhang] [Huang]
[SIGGRAPH 2020]
![Inverse Procedural Modeling of Branching Structures by Inferring L-Systems](https://history.siggraph.org/wp-content/uploads/2023/02/2020-Technical-Papers-Guo_Inverse-Procedural-Modeling-of-Branching-Structures-by-Inferring-L-Systems-150x150.jpg)
Type: [Technical Papers]
Inverse Procedural Modeling of Branching Structures by Inferring L-Systems Presenter(s): [Guo] [Jiang] [Benes] [Deussen] [Zhang] [Lischinski] [Huang]
[SIGGRAPH 2020]
![SAGNet: structure-aware generative network for 3D-shape modeling](https://history.siggraph.org/wp-content/uploads/2023/01/2019-Technical-Papers-Wu_SAGNet_-Structure-aware-Generative-Network-for-3D-Shape-Modeling-150x150.jpg)
Type: [Technical Papers]
SAGNet: structure-aware generative network for 3D-shape modeling Presenter(s): [Wu] [Wang] [Lin] [Lischinski] [Cohen-Or] [Huang]
[SIGGRAPH 2019]
![Appearance Modeling via Proxy-to-Image Alignment](https://history.siggraph.org/wp-content/uploads/2022/07/2018-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
Appearance Modeling via Proxy-to-Image Alignment Presenter(s): [Huang] [Xie] [Ma] [Lischinski] [Gong] [Tong] [Cohen-Or]
[SIGGRAPH 2018]
![Creating and chaining camera moves for quadrotor videography](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Technical-Papers-Xie_Creating-and-Chaining-Camera-Moves-for-Quadrotor-Videography-150x150.jpg)
Type: [Technical Papers]
Creating and chaining camera moves for quadrotor videography Presenter(s): [Xie] [Yang] [Huang] [Lischinski] [Christie] [Xu] [Gong] [Cohen-Or] [Huang]
Entry No.: [88]
[SIGGRAPH 2018]
![Full 3D reconstruction of transparent objects](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Technical-Papers-Wu_Full-3D-Reconstruction-of-Transparent-Objects-150x150.jpg)
Type: [Technical Papers]
Full 3D reconstruction of transparent objects Presenter(s): [Wu] [Zhou] [Lin] [Gong] [Huang]
Entry No.: [103]
[SIGGRAPH 2018]
![Non-stationary texture synthesis by adversarial expansion](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Technical-Papers-Zhou_Non-StationaryTexture-Synthesis-by-Adversarial-Expansion-150x150.jpg)
Type: [Technical Papers]
Non-stationary texture synthesis by adversarial expansion Presenter(s): [Zhou] [Zhu] [Bai] [Lischinski] [Cohen-Or] [Huang]
Entry No.: [49]
[SIGGRAPH 2018]
![Object-aware guidance for autonomous scene reconstruction](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Technical-Papers-Liu_Object-Aware-Guidance-for-Autonomous-Scene-Reconstruction-150x150.jpg)
Type: [Technical Papers]
Object-aware guidance for autonomous scene reconstruction Presenter(s): [Liu] [Xia] [Sun] [Shen] [Xu] [Chen] [Huang] [Xu]
Entry No.: [104]
[SIGGRAPH 2018]
![P2P-NET: bidirectional point displacement net for shape transform](https://history.siggraph.org/wp-content/uploads/2023/01/2018-Technical-Papers-Yin_P2P-NET-150x150.jpg)
Type: [Technical Papers]
P2P-NET: bidirectional point displacement net for shape transform Presenter(s): [Yin] [Huang] [Cohen-Or] [Zhang]
Entry No.: [152]
[SIGGRAPH 2018]
![Predictive and generative neural networks for object functionality](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Technical-Papers-Hu_Predictive-and-Generative-Neural-Networks-for-Object-Functionality-150x150.jpg)
Type: [Technical Papers]
Predictive and generative neural networks for object functionality Presenter(s): [Hu] [Yan] [Zhang] [Kaick] [Shamir] [Zhang] [Huang]
Entry No.: [151]
[SIGGRAPH 2018]
![An adaptive point sampler on a regular lattice](https://history.siggraph.org/wp-content/uploads/2023/02/2017-Technical-Papers-Ahmed_An-Adaptive-Point-Sampler-on-a-Regular-Lattice-2-150x150.jpg)
Type: [Technical Papers]
An adaptive point sampler on a regular lattice Presenter(s): [Ahmed] [Niese] [Huang] [Deussen]
[SIGGRAPH 2017]
![Co-Locating Style-Defining Elements on 3D Shapes](https://history.siggraph.org/wp-content/uploads/2022/07/2017-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
Co-Locating Style-Defining Elements on 3D Shapes Presenter(s): [Hu] [Hu] [Kaick] [Huang] [Averkiou] [Cohen-Or] [Zhang]
[SIGGRAPH 2017]
![Learning how objects function via co-analysis of interactions](https://history.siggraph.org/wp-content/uploads/2023/02/2016-Technical-Papers-Hu_Learning-How-Objects-Function-via-Co-Analysis-of-Interactions-150x150.jpg)
Type: [Technical Papers]
Learning how objects function via co-analysis of interactions Presenter(s): [Hu] [Kaick] [Wu] [Huang] [Shamir] [Zhang]
[SIGGRAPH 2016]
![Deformation capture and modeling of soft objects](https://history.siggraph.org/wp-content/uploads/2023/04/2015-Technical-Papers-Wang_Deformation-Capture-and-Modeling-of-Soft-Objects-150x150.jpg)
Type: [Technical Papers]
Deformation capture and modeling of soft objects Presenter(s): [Wang] [Wu] [Yin] [Ascher] [Liu] [Huang]
[SIGGRAPH 2015]
![Organizing heterogeneous scene collections through contextual focal points](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Xu_Organizing-Heterogeneous-Scene-Collections-through-Contextual-Focal-Points-150x150.jpg)
Type: [Technical Papers]
Organizing heterogeneous scene collections through contextual focal points Presenter(s): [Xu] [Ma] [Zhu] [Shamir] [Cohen-Or] [Huang]
[SIGGRAPH 2014]
![Proactive 3D scanning of inaccessible parts](https://history.siggraph.org/wp-content/uploads/2023/03/2014-Technical-Papers-Yan_Proactive-3D-Scanning-of-Inaccessible-Parts-150x150.jpg)
Type: [Technical Papers]
Proactive 3D scanning of inaccessible parts Presenter(s): [Yan] [Sharf] [Lin] [Huang] [Chen]
[SIGGRAPH 2014]
Role(s):
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