default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDGordon Wetzstein
Person information
- affiliation: Stanford University, CA, USA
- affiliation (former): MIT, Cambridge, MA, USA
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
[j66]Ryan Po, Wang Yifan
, Vladislav Golyanik, Kfir Aberman, Jonathan T. Barron, Amit Bermano, Eric R. Chan, Tali Dekel, Aleksander Holynski, Angjoo Kanazawa, C. Karen Liu, Lingjie Liu, Ben Mildenhall, Matthias Nießner, Björn Ommer, Christian Theobalt, Peter Wonka, Gordon Wetzstein:
State of the Art on Diffusion Models for Visual Computing. Comput. Graph. Forum 43(2): i-iii (2024)- [j65]Qingqing Zhao, Peizhuo Li, Wang Yifan, Olga Sorkine-Hornung, Gordon Wetzstein:
Pose-to-Motion: Cross-Domain Motion Retargeting with Pose Prior. Comput. Graph. Forum 43(8): i-ix (2024) - [j64]Yunxiang Zhang, Nan Wu, Connor Z. Lin, Gordon Wetzstein, Qi Sun:
GazeFusion: Saliency-Guided Image Generation. ACM Trans. Appl. Percept. 21(4): 14:1-14:19 (2024) - [j63]Dongyeon Kim, Seung-Woo Nam, Suyeon Choi, Jong-Mo Seo, Gordon Wetzstein, Yoonchan Jeong:
Holographic Parallax Improves 3D Perceptual Realism. ACM Trans. Graph. 43(4): 68:1-68:13 (2024) - [c138]Wei-Ting Chen, Wang Yifan, Sy-Yen Kuo, Gordon Wetzstein:
DehazeNeRF: Multi-image Haze Removal and 3D Shape Reconstruction using Neural Radiance Fields. 3DV 2024: 247-256 - [c137]Yinghao Xu, Wang Yifan, Alexander W. Bergman, Menglei Chai, Bolei Zhou, Gordon Wetzstein:
Efficient 3D Articulated Human Generation with Layered Surface Volumes. 3DV 2024: 268-279 - [c136]Boyang Deng, Yifan Wang, Gordon Wetzstein:
LumiGAN: Unconditional Generation of Relightable 3D Human Faces. 3DV 2024: 302-312 - [c135]Axel Levy, Mark J. Matthews, Matan Sela, Gordon Wetzstein, Dmitry Lagun:
MELON: NeRF with Unposed Images in SO(3). 3DV 2024: 354-364 - [c134]Ryan Po, Gordon Wetzstein:
Compositional 3D Scene Generation using Locally Conditioned Diffusion. 3DV 2024: 651-663 - [c133]Shengqu Cai, Duygu Ceylan, Matheus Gadelha, Chun-Hao Paul Huang, Tuanfeng Yang Wang, Gordon Wetzstein:
Generative Rendering: Controllable 4D-Guided Video Generation with 2D Diffusion Models. CVPR 2024: 7611-7620 - [c132]Ryan Po, Guandao Yang, Kfir Aberman, Gordon Wetzstein:
Orthogonal Adaptation for Modular Customization of Diffusion Models. CVPR 2024: 7964-7973 - [c131]Sherwin Bahmani, Ivan Skorokhodov, Victor Rong, Gordon Wetzstein, Leonidas J. Guibas, Peter Wonka, Sergey Tulyakov, Jeong Joon Park, Andrea Tagliasacchi, David B. Lindell:
4D-fy: Text-to-4D Generation Using Hybrid Score Distillation Sampling. CVPR 2024: 7996-8006 - [c130]Rameen Abdal, Yifan Wang, Zifan Shi, Yinghao Xu, Ryan Po, Zhengfei Kuang, Qifeng Chen, Dit-Yan Yeung, Gordon Wetzstein:
Gaussian Shell Maps for Efficient 3D Human Generation. CVPR 2024: 9441-9451 - [c129]Tong Wu, Guandao Yang, Zhibing Li, Kai Zhang, Ziwei Liu, Leonidas J. Guibas, Dahua Lin, Gordon Wetzstein:
GPT-4V(ision) is a Human-Aligned Evaluator for Text-to-3D Generation. CVPR 2024: 22227-22238 - [c128]Haley M. So, Laurie Bose, Piotr Dudek, Gordon Wetzstein:
PixelRNN: In-pixel Recurrent Neural Networks for End-to-end-optimized Perception with Neural Sensors. CVPR 2024: 25233-25244 - [c127]Yinghao Xu, Zifan Shi, Yifan Wang, Hansheng Chen, Ceyuan Yang, Sida Peng, Yujun Shen, Gordon Wetzstein:
GRM: Large Gaussian Reconstruction Model for Efficient 3D Reconstruction and Generation. ECCV (15) 2024: 1-20 - [c126]Sherwin Bahmani, Xian Liu, Wang Yifan, Ivan Skorokhodov, Victor Rong, Ziwei Liu, Xihui Liu, Jeong Joon Park, Sergey Tulyakov, Gordon Wetzstein, Andrea Tagliasacchi, David B. Lindell:
TC4D: Trajectory-Conditioned Text-to-4D Generation. ECCV (46) 2024: 53-72 - [c125]Joseph Tung, Gene Chou, Ruojin Cai, Guandao Yang, Kai Zhang, Gordon Wetzstein, Bharath Hariharan, Noah Snavely:
MegaScenes: Scene-Level View Synthesis at Scale. ECCV (29) 2024: 197-214 - [c124]Yang Zheng, Qingqing Zhao, Guandao Yang, Wang Yifan, Donglai Xiang, Florian Dubost, Dmitry Lagun, Thabo Beeler, Federico Tombari, Leonidas J. Guibas, Gordon Wetzstein:
PhysAvatar: Learning the Physics of Dressed 3D Avatars from Visual Observations. ECCV (37) 2024: 262-284 - [c123]Anagh Malik, Noah Juravsky, Ryan Po, Gordon Wetzstein, Kiriakos N. Kutulakos, David B. Lindell:
Flying with Photons: Rendering Novel Views of Propagating Light. ECCV (21) 2024: 333-351 - [c122]Qingyan Bai, Zifan Shi, Yinghao Xu, Hao Ouyang, Qiuyu Wang, Ceyuan Yang, Xuan Wang, Gordon Wetzstein, Yujun Shen, Qifeng Chen:
Real-Time 3D-Aware Portrait Editing from a Single Image. ECCV (51) 2024: 344-362 - [c121]Yvette Y. Lin, Xin-Yi Pan, Sara Fridovich-Keil, Gordon Wetzstein:
ThermalNeRF: Thermal Radiance Fields. ICCP 2024: 1-12 - [c120]Yinghao Xu, Hao Tan, Fujun Luan, Sai Bi, Peng Wang, Jiahao Li, Zifan Shi, Kalyan Sunkavalli, Gordon Wetzstein, Zexiang Xu, Kai Zhang:
DMV3D: Denoising Multi-view Diffusion Using 3D Large Reconstruction Model. ICLR 2024 - [c119]Zilu Li, Guandao Yang, Qingqing Zhao, Xi Deng, Leonidas J. Guibas, Bharath Hariharan, Gordon Wetzstein:
Neural Control Variates with Automatic Integration. SIGGRAPH (Conference Paper Track) 2024: 10 - [c118]Seung-Woo Nam, Dongyeon Kim, Suyeon Choi, Juhyun Lee, Siwoo Lee, Manu Gopakumar, Brian Chao, Gordon Wetzstein, Yoonchan Jeong:
Holographic Parallax. SIGGRAPH Emerging Technologies 2024: 11 - [c117]Boyang Deng, Richard Tucker, Zhengqi Li, Leonidas J. Guibas, Noah Snavely, Gordon Wetzstein:
Streetscapes: Large-scale Consistent Street View Generation Using Autoregressive Video Diffusion. SIGGRAPH (Conference Paper Track) 2024: 27 - [c116]Brian Chao, Manu Gopakumar, Suyeon Choi, Jonghyun Kim, Liang Shi, Gordon Wetzstein:
Large Étendue 3D Holographic Display with Content-adaptive Dynamic Fourier Modulation. SIGGRAPH Asia 2024: 26:1-26:12 - [c115]Colton Stearns, Adam W. Harley, Mikaela Angelina Uy, Florian Dubost, Federico Tombari, Gordon Wetzstein, Leonidas J. Guibas:
Dynamic Gaussian Marbles for Novel View Synthesis of Casual Monocular Videos. SIGGRAPH Asia 2024: 30:1-30:11 - [c114]Jihyeon Je, Jiayi Liu, Guandao Yang, Boyang Deng, Shengqu Cai, Gordon Wetzstein, Or Litany, Leonidas J. Guibas:
Robust Symmetry Detection via Riemannian Langevin Dynamics. SIGGRAPH Asia 2024: 91:1-91:11 - [c113]Gordon Wetzstein:
VGTC Virtual Reality Technical Achievement Award. VR 2024: 1 - [c112]Cindy M. Nguyen, Eric R. Chan, Alexander W. Bergman, Gordon Wetzstein:
Diffusion in the Dark: A Diffusion Model for Low-Light Text Recognition. WACV 2024: 4134-4145 - [i116]Tong Wu, Guandao Yang, Zhibing Li, Kai Zhang, Ziwei Liu, Leonidas J. Guibas, Dahua Lin, Gordon Wetzstein:
GPT-4V(ision) is a Human-Aligned Evaluator for Text-to-3D Generation. CoRR abs/2401.04092 (2024) - [i115]Robert Konrad, Nitish Padmanaban, J. Gabriel Buckmaster, Kevin C. Boyle, Gordon Wetzstein:
GazeGPT: Augmenting Human Capabilities using Gaze-contingent Contextual AI for Smart Eyewear. CoRR abs/2401.17217 (2024) - [i114]Qingyan Bai, Yinghao Xu, Zifan Shi, Hao Ouyang, Qiuyu Wang, Ceyuan Yang, Xuan Wang, Gordon Wetzstein, Yujun Shen, Qifeng Chen:
Real-time 3D-aware Portrait Editing from a Single Image. CoRR abs/2402.14000 (2024) - [i113]Hansheng Chen, Ruoxi Shi, Yulin Liu, Bokui Shen, Jiayuan Gu, Gordon Wetzstein, Hao Su, Leonidas J. Guibas:
Generic 3D Diffusion Adapter Using Controlled Multi-View Editing. CoRR abs/2403.12032 (2024) - [i112]Yinghao Xu, Zifan Shi, Wang Yifan, Hansheng Chen, Ceyuan Yang, Sida Peng, Yujun Shen, Gordon Wetzstein:
GRM: Large Gaussian Reconstruction Model for Efficient 3D Reconstruction and Generation. CoRR abs/2403.14621 (2024) - [i111]Sherwin Bahmani, Xian Liu, Yifan Wang, Ivan Skorokhodov, Victor Rong, Ziwei Liu, Xihui Liu, Jeong Joon Park, Sergey Tulyakov, Gordon Wetzstein, Andrea Tagliasacchi, David B. Lindell:
TC4D: Trajectory-Conditioned Text-to-4D Generation. CoRR abs/2403.17920 (2024) - [i110]Hao He, Yinghao Xu, Yuwei Guo, Gordon Wetzstein, Bo Dai, Hongsheng Li, Ceyuan Yang:
CameraCtrl: Enabling Camera Control for Text-to-Video Generation. CoRR abs/2404.02101 (2024) - [i109]Yang Zheng, Qingqing Zhao, Guandao Yang, Wang Yifan, Donglai Xiang, Florian Dubost, Dmitry Lagun, Thabo Beeler, Federico Tombari, Leonidas J. Guibas, Gordon Wetzstein:
PhysAvatar: Learning the Physics of Dressed 3D Avatars from Visual Observations. CoRR abs/2404.04421 (2024) - [i108]Anagh Malik, Noah Juravsky, Ryan Po, Gordon Wetzstein, Kiriakos N. Kutulakos, David B. Lindell:
Flying with Photons: Rendering Novel Views of Propagating Light. CoRR abs/2404.06493 (2024) - [i107]Dongyeon Kim, Seung-Woo Nam, Suyeon Choi, Jong-Mo Seo, Gordon Wetzstein, Yoonchan Jeong:
Holographic Parallax Improves 3D Perceptual Realism. CoRR abs/2404.11810 (2024) - [i106]Ye Fang, Zeyi Sun, Tong Wu, Jiaqi Wang, Ziwei Liu, Gordon Wetzstein, Dahua Lin:
Make-it-Real: Unleashing Large Multimodal Model's Ability for Painting 3D Objects with Realistic Materials. CoRR abs/2404.16829 (2024) - [i105]Zhengfei Kuang, Shengqu Cai, Hao He, Yinghao Xu, Hongsheng Li, Leonidas J. Guibas, Gordon Wetzstein:
Collaborative Video Diffusion: Consistent Multi-video Generation with Camera Control. CoRR abs/2405.17414 (2024) - [i104]Fangneng Zhan, Hanxue Liang, Yifan Wang, Michael Niemeyer, Michael Oechsle, Adam Kortylewski, Cengiz Öztireli, Gordon Wetzstein, Christian Theobalt:
Evolutive Rendering Models. CoRR abs/2405.17531 (2024) - [i103]Qihang Zhang, Yinghao Xu, Chaoyang Wang, Hsin-Ying Lee, Gordon Wetzstein, Bolei Zhou, Ceyuan Yang:
3DitScene: Editing Any Scene via Language-guided Disentangled Gaussian Splatting. CoRR abs/2405.18424 (2024) - [i102]Axel Levy, Eric R. Chan, Sara Fridovich-Keil, Frédéric Poitevin, Ellen D. Zhong, Gordon Wetzstein:
Solving Inverse Problems in Protein Space Using Diffusion-Based Priors. CoRR abs/2406.04239 (2024) - [i101]Amil Dravid, Yossi Gandelsman, Kuan-Chieh Wang, Rameen Abdal, Gordon Wetzstein, Alexei A. Efros, Kfir Aberman:
Interpreting the Weight Space of Customized Diffusion Models. CoRR abs/2406.09413 (2024) - [i100]Zipeng Fu, Qingqing Zhao, Qi Wu, Gordon Wetzstein, Chelsea Finn:
HumanPlus: Humanoid Shadowing and Imitation from Humans. CoRR abs/2406.10454 (2024) - [i99]Joseph Tung, Gene Chou, Ruojin Cai, Guandao Yang, Kai Zhang, Gordon Wetzstein, Bharath Hariharan, Noah Snavely:
MegaScenes: Scene-Level View Synthesis at Scale. CoRR abs/2406.11819 (2024) - [i98]Colton Stearns, Adam W. Harley, Mikaela Angelina Uy, Florian Dubost, Federico Tombari, Gordon Wetzstein, Leonidas J. Guibas:
Dynamic Gaussian Marbles for Novel View Synthesis of Casual Monocular Videos. CoRR abs/2406.18717 (2024) - [i97]Hang Chen, Sheng Gao, Zejia Zhao, Zhengyang Duan, Haiou Zhang, Gordon Wetzstein, Xing Lin:
Super-resolution imaging using super-oscillatory diffractive neural networks. CoRR abs/2406.19126 (2024) - [i96]Yunxiang Zhang, Nan Wu, Connor Z. Lin, Gordon Wetzstein, Qi Sun:
GazeFusion: Saliency-guided Image Generation. CoRR abs/2407.04191 (2024) - [i95]Boyang Deng, Richard Tucker, Zhengqi Li, Leonidas J. Guibas, Noah Snavely, Gordon Wetzstein:
Streetscapes: Large-scale Consistent Street View Generation Using Autoregressive Video Diffusion. CoRR abs/2407.13759 (2024) - [i94]Mengda Xu, Zhenjia Xu, Yinghao Xu, Cheng Chi, Gordon Wetzstein, Manuela Veloso, Shuran Song:
Flow as the Cross-Domain Manipulation Interface. CoRR abs/2407.15208 (2024) - [i93]Yvette Y. Lin, Xin-Yi Pan, Sara Fridovich-Keil, Gordon Wetzstein:
ThermalNeRF: Thermal Radiance Fields. CoRR abs/2407.15337 (2024) - [i92]Shuai Yang, Jing Tan, Mengchen Zhang, Tong Wu, Yixuan Li, Gordon Wetzstein, Ziwei Liu, Dahua Lin:
LayerPano3D: Layered 3D Panorama for Hyper-Immersive Scene Generation. CoRR abs/2408.13252 (2024) - [i91]Brian Chao, Manu Gopakumar, Suyeon Choi, Jonghyun Kim, Liang Shi, Gordon Wetzstein:
Large Étendue 3D Holographic Display with Content-adpative Dynamic Fourier Modulation. CoRR abs/2409.03143 (2024) - [i90]Zilu Li, Guandao Yang, Qingqing Zhao, Xi Deng, Leonidas J. Guibas, Bharath Hariharan, Gordon Wetzstein:
Neural Control Variates with Automatic Integration. CoRR abs/2409.15394 (2024) - [i89]Jihyeon Je, Jiayi Liu, Guandao Yang, Boyang Deng, Shengqu Cai, Gordon Wetzstein, Or Litany, Leonidas J. Guibas:
Robust Symmetry Detection via Riemannian Langevin Dynamics. CoRR abs/2410.02786 (2024) - [i88]Hansheng Chen, Bokui Shen, Yulin Liu, Ruoxi Shi, Linqi Zhou, Connor Z. Lin, Jiayuan Gu, Hao Su, Gordon Wetzstein, Leonidas J. Guibas:
3D-Adapter: Geometry-Consistent Multi-View Diffusion for High-Quality 3D Generation. CoRR abs/2410.18974 (2024) - [i87]Irmak Sivgin, Sara Fridovich-Keil, Gordon Wetzstein, Mert Pilanci:
Geometric Algebra Planes: Convex Implicit Neural Volumes. CoRR abs/2411.13525 (2024) - [i86]Zhengfei Kuang, Tianyuan Zhang, Kai Zhang, Hao Tan, Sai Bi, Yiwei Hu, Zexiang Xu, Milos Hasan, Gordon Wetzstein, Fujun Luan:
Buffer Anytime: Zero-Shot Video Depth and Normal from Image Priors. CoRR abs/2411.17249 (2024) - [i85]Shengqu Cai, Eric R. Chan, Yunzhi Zhang, Leonidas J. Guibas, Jiajun Wu, Gordon Wetzstein:
Diffusion Self-Distillation for Zero-Shot Customized Image Generation. CoRR abs/2411.18616 (2024) - [i84]Brian Chao, Hung-Yu Tseng, Lorenzo Porzi, Chen Gao, Tuotuo Li, Qinbo Li, Ayush Saraf, Jia-Bin Huang, Johannes Kopf, Gordon Wetzstein, Changil Kim:
Textured Gaussians for Enhanced 3D Scene Appearance Modeling. CoRR abs/2411.18625 (2024) - [i83]Kiyohiro Nakayama, Jan Ackermann, Timur Levent Kesdogan, Yang Zheng, Maria Korosteleva, Olga Sorkine-Hornung, Leonidas J. Guibas, Guandao Yang, Gordon Wetzstein:
AIpparel: A Large Multimodal Generative Model for Digital Garments. CoRR abs/2412.03937 (2024) - [i82]Tong Wu, Yinghao Xu, Ryan Po, Mengchen Zhang, Guandao Yang, Jiaqi Wang, Ziwei Liu, Dahua Lin, Gordon Wetzstein:
FiVA: Fine-grained Visual Attribute Dataset for Text-to-Image Diffusion Models. CoRR abs/2412.07674 (2024) - [i81]Axel Levy, Rishwanth Raghu, David Shustin, Adele Rui-Yang Peng, Huan Li, Oliver Biggs Clarke, Gordon Wetzstein, Ellen D. Zhong:
Mixture of neural fields for heterogeneous reconstruction in cryo-EM. CoRR abs/2412.09420 (2024) - [i80]Changan Chen, Juze Zhang, Shrinidhi K. Lakshmikanth, Yusu Fang, Ruizhi Shao, Gordon Wetzstein, Li Fei-Fei, Ehsan Adeli:
The Language of Motion: Unifying Verbal and Non-verbal Language of 3D Human Motion. CoRR abs/2412.10523 (2024) - 2023
- [j62]Sherwin Bahmani, Jeong Joon Park, Despoina Paschalidou, Hao Tang, Gordon Wetzstein, Leonidas J. Guibas, Luc Van Gool, Radu Timofte:
3D-Aware Video Generation. Trans. Mach. Learn. Res. 2023 (2023) - [j61]Brooke Krajancich, Petr Kellnhofer, Gordon Wetzstein:
Towards Attention-aware Foveated Rendering. ACM Trans. Graph. 42(4): 77:1-77:10 (2023) - [j60]Christoph Ebner, Peter Mohr, Tobias Langlotz, Yifan Peng, Dieter Schmalstieg, Gordon Wetzstein, Denis Kalkofen:
Off-Axis Layered Displays: Hybrid Direct-View/Near-Eye Mixed Reality with Focus Cues. IEEE Trans. Vis. Comput. Graph. 29(5): 2816-2825 (2023) - [c111]Zhen Wang, Shijie Zhou, Jeong Joon Park, Despoina Paschalidou, Suya You, Gordon Wetzstein, Leonidas J. Guibas, Achuta Kadambi:
ALTO: Alternating Latent Topologies for Implicit 3D Reconstruction. CVPR 2023: 259-270 - [c110]Minjung Son, Jeong Joon Park, Leonidas J. Guibas, Gordon Wetzstein:
SinGRAF: Learning a 3D Generative Radiance Field for a Single Scene. CVPR 2023: 8507-8517 - [c109]Zhengfei Kuang, Fujun Luan, Sai Bi, Zhixin Shu, Gordon Wetzstein, Kalyan Sunkavalli:
PaletteNeRF: Palette-based Appearance Editing of Neural Radiance Fields. CVPR 2023: 20691-20700 - [c108]J. Ryan Shue, Eric Ryan Chan, Ryan Po, Zachary Ankner, Jiajun Wu, Gordon Wetzstein:
3D Neural Field Generation Using Triplane Diffusion. CVPR 2023: 20875-20886 - [c107]Yufeng Zheng, Wang Yifan, Gordon Wetzstein, Michael J. Black, Otmar Hilliges:
PointAvatar: Deformable Point-Based Head Avatars from Videos. CVPR 2023: 21057-21067 - [c106]Shengqu Cai, Eric Ryan Chan, Songyou Peng, Mohamad Shahbazi, Anton Obukhov, Luc Van Gool, Gordon Wetzstein:
DiffDreamer: Towards Consistent Unsupervised Single-view Scene Extrapolation with Conditional Diffusion Models. ICCV 2023: 2139-2150 - [c105]Eric R. Chan, Koki Nagano, Matthew A. Chan, Alexander W. Bergman, Jeong Joon Park, Axel Levy, Miika Aittala, Shalini De Mello, Tero Karras, Gordon Wetzstein:
Generative Novel View Synthesis with 3D-Aware Diffusion Models. ICCV 2023: 4194-4206 - [c104]Sherwin Bahmani, Jeong Joon Park, Despoina Paschalidou, Xingguang Yan, Gordon Wetzstein, Leonidas J. Guibas, Andrea Tagliasacchi:
CC3D: Layout-Conditioned Generation of Compositional 3D Scenes. ICCV 2023: 7137-7147 - [c103]Yang Zheng, Adam W. Harley, Bokui Shen, Gordon Wetzstein, Leonidas J. Guibas:
PointOdyssey: A Large-Scale Synthetic Dataset for Long-Term Point Tracking. ICCV 2023: 19798-19808 - [c102]Ryan Po, Zhengyang Dong, Alexander W. Bergman, Gordon Wetzstein:
Instant Continual Learning of Neural Radiance Fields. ICCV (Workshops) 2023: 3326-3336 - [c101]Tailin Wu, Takashi Maruyama, Qingqing Zhao, Gordon Wetzstein, Jure Leskovec:
Learning Controllable Adaptive Simulation for Multi-resolution Physics. ICLR 2023 - [c100]Suyeon Choi, Manu Gopakumar, Brian Chao, Gun-Yeal Lee, Jonghyun Kim, Gordon Wetzstein:
Neural Holographic Near-eye Displays for Virtual Reality. SIGGRAPH Emerging Technologies 2023: 12:1-12:2 - [c99]Connor Z. Lin, Koki Nagano, Jan Kautz, Eric R. Chan, Umar Iqbal, Leonidas J. Guibas, Gordon Wetzstein, Sameh Khamis:
Single-Shot Implicit Morphable Faces with Consistent Texture Parameterization. SIGGRAPH (Conference Paper Track) 2023: 83:1-83:12 - [i79]Brooke Krajancich, Petr Kellnhofer, Gordon Wetzstein:
Towards Attention-aware Rendering for Virtual and Augmented Reality. CoRR abs/2302.01368 (2023) - [i78]Cindy M. Nguyen, Eric R. Chan, Alexander W. Bergman, Gordon Wetzstein:
Diffusion in the Dark: A Diffusion Model for Low-Light Text Recognition. CoRR abs/2303.04291 (2023) - [i77]Axel Levy, Mark J. Matthews, Matan Sela, Gordon Wetzstein, Dmitry Lagun:
MELON: NeRF with Unposed Images Using Equivalence Class Estimation. CoRR abs/2303.08096 (2023) - [i76]Wei-Ting Chen, Wang Yifan, Sy-Yen Kuo, Gordon Wetzstein:
DehazeNeRF: Multiple Image Haze Removal and 3D Shape Reconstruction using Neural Radiance Fields. CoRR abs/2303.11364 (2023) - [i75]Sherwin Bahmani, Jeong Joon Park, Despoina Paschalidou, Xingguang Yan, Gordon Wetzstein, Leonidas J. Guibas, Andrea Tagliasacchi:
CC3D: Layout-Conditioned Generation of Compositional 3D Scenes. CoRR abs/2303.12074 (2023) - [i74]Ryan Po, Gordon Wetzstein:
Compositional 3D Scene Generation using Locally Conditioned Diffusion. CoRR abs/2303.12218 (2023) - [i73]Eric R. Chan, Koki Nagano, Matthew A. Chan, Alexander W. Bergman, Jeong Joon Park, Axel Levy, Miika Aittala, Shalini De Mello, Tero Karras, Gordon Wetzstein:
Generative Novel View Synthesis with 3D-Aware Diffusion Models. CoRR abs/2304.02602 (2023) - [i72]Haley M. So, Laurie Bose, Piotr Dudek, Gordon Wetzstein:
PixelRNN: In-pixel Recurrent Neural Networks for End-to-end-optimized Perception with Neural Sensors. CoRR abs/2304.05440 (2023) - [i71]Boyang Deng, Yifan Wang, Gordon Wetzstein:
LumiGAN: Unconditional Generation of Relightable 3D Human Faces. CoRR abs/2304.13153 (2023) - [i70]Tailin Wu, Takashi Maruyama, Qingqing Zhao, Gordon Wetzstein, Jure Leskovec:
Learning Controllable Adaptive Simulation for Multi-resolution Physics. CoRR abs/2305.01122 (2023) - [i69]Connor Z. Lin, Koki Nagano, Jan Kautz, Eric R. Chan, Umar Iqbal, Leonidas J. Guibas, Gordon Wetzstein, Sameh Khamis:
Single-Shot Implicit Morphable Faces with Consistent Texture Parameterization. CoRR abs/2305.03043 (2023) - [i68]Alexander W. Bergman, Wang Yifan, Gordon Wetzstein:
Articulated 3D Head Avatar Generation using Text-to-Image Diffusion Models. CoRR abs/2307.04859 (2023) - [i67]Yinghao Xu, Wang Yifan, Alexander W. Bergman, Menglei Chai, Bolei Zhou, Gordon Wetzstein:
Efficient 3D Articulated Human Generation with Layered Surface Volumes. CoRR abs/2307.05462 (2023) - [i66]Yang Zheng, Adam W. Harley, Bokui Shen, Gordon Wetzstein, Leonidas J. Guibas:
PointOdyssey: A Large-Scale Synthetic Dataset for Long-Term Point Tracking. CoRR abs/2307.15055 (2023) - [i65]Ryan Po, Zhengyang Dong, Alexander W. Bergman, Gordon Wetzstein:
Instant Continual Learning of Neural Radiance Fields. CoRR abs/2309.01811 (2023) - [i64]Sara Fridovich-Keil, Fabrizio Valdivia, Gordon Wetzstein, Benjamin Recht, Mahdi Soltanolkotabi:
Gradient Descent Provably Solves Nonlinear Tomographic Reconstruction. CoRR abs/2310.03956 (2023) - [i63]Ryan Po, Wang Yifan, Vladislav Golyanik, Kfir Aberman, Jonathan T. Barron, Amit H. Bermano, Eric Ryan Chan, Tali Dekel, Aleksander Holynski, Angjoo Kanazawa, C. Karen Liu, Lingjie Liu, Ben Mildenhall, Matthias Nießner, Björn Ommer, Christian Theobalt, Peter Wonka, Gordon Wetzstein:
State of the Art on Diffusion Models for Visual Computing. CoRR abs/2310.07204 (2023) - [i62]Qingqing Zhao, Peizhuo Li, Wang Yifan, Olga Sorkine-Hornung, Gordon Wetzstein:
Pose-to-Motion: Cross-Domain Motion Retargeting with Pose Prior. CoRR abs/2310.20249 (2023) - [i61]Yinghao Xu, Hao Tan, Fujun Luan, Sai Bi, Peng Wang, Jiahao Li, Zifan Shi, Kalyan Sunkavalli, Gordon Wetzstein, Zexiang Xu, Kai Zhang:
DMV3D: Denoising Multi-View Diffusion using 3D Large Reconstruction Model. CoRR abs/2311.09217 (2023) - [i60]Annesha Ghosh, Gordon Wetzstein, Mert Pilanci, Sara Fridovich-Keil:
Volumetric Reconstruction Resolves Off-Resonance Artifacts in Static and Dynamic PROPELLER MRI. CoRR abs/2311.13177 (2023) - [i59]Rameen Abdal, Wang Yifan, Zifan Shi, Yinghao Xu, Ryan Po, Zhengfei Kuang, Qifeng Chen, Dit-Yan Yeung, Gordon Wetzstein:
Gaussian Shell Maps for Efficient 3D Human Generation. CoRR abs/2311.17857 (2023) - [i58]Sherwin Bahmani, Ivan Skorokhodov, Victor Rong, Gordon Wetzstein, Leonidas J. Guibas, Peter Wonka, Sergey Tulyakov, Jeong Joon Park, Andrea Tagliasacchi, David B. Lindell:
4D-fy: Text-to-4D Generation Using Hybrid Score Distillation Sampling. CoRR abs/2311.17984 (2023) - [i57]Shengqu Cai, Duygu Ceylan, Matheus Gadelha, Chun-Hao Paul Huang, Tuanfeng Yang Wang, Gordon Wetzstein:
Generative Rendering: Controllable 4D-Guided Video Generation with 2D Diffusion Models. CoRR abs/2312.01409 (2023) - [i56]Ryan Po, Guandao Yang, Kfir Aberman, Gordon Wetzstein:
Orthogonal Adaptation for Modular Customization of Diffusion Models. CoRR abs/2312.02432 (2023) - [i55]Jay Shenoy, Axel Levy, Frédéric Poitevin, Gordon Wetzstein:
Scalable 3D Reconstruction From Single Particle X-Ray Diffraction Images Based on Online Machine Learning. CoRR abs/2312.14432 (2023) - 2022
- [j59]Luke Hsiao, Brooke Krajancich, Philip Alexander Levis, Gordon Wetzstein, Keith Winstein:
Towards retina-quality VR video streaming: 15ms could save you 80% of your bandwidth. Comput. Commun. Rev. 52(1): 10-19 (2022) - [j58]Ayush Tewari, Justus Thies, Ben Mildenhall, Pratul P. Srinivasan, Edgar Tretschk, Yifan Wang, Christoph Lassner, Vincent Sitzmann, Ricardo Martin-Brualla, Stephen Lombardi, Tomas Simon, Christian Theobalt, Matthias Nießner, Jonathan T. Barron, Gordon Wetzstein, Michael Zollhöfer, Vladislav Golyanik:
Advances in Neural Rendering. Comput. Graph. Forum 41(2): 703-735 (2022) - [j57]Daniel Martin, Ana Serrano, Alexander W. Bergman, Gordon Wetzstein, Belén Masiá:
ScanGAN360: A Generative Model of Realistic Scanpaths for 360° Images. IEEE Trans. Vis. Comput. Graph. 28(5): 2003-2013 (2022) - [j56]Christoph Ebner, Shohei Mori, Peter Mohr, Yifan Peng, Dieter Schmalstieg, Gordon Wetzstein, Denis Kalkofen:
Video See-Through Mixed Reality with Focus Cues. IEEE Trans. Vis. Comput. Graph. 28(5): 2256-2266 (2022) - [c98]Eric R. Chan, Connor Z. Lin, Matthew A. Chan, Koki Nagano, Boxiao Pan, Shalini De Mello, Orazio Gallo, Leonidas J. Guibas, Jonathan Tremblay, Sameh Khamis, Tero Karras, Gordon Wetzstein:
Efficient Geometry-aware 3D Generative Adversarial Networks. CVPR 2022: 16102-16112 - [c97]David B. Lindell, Dave Van Veen, Jeong Joon Park, Gordon Wetzstein:
Bacon: Band-limited Coordinate Networks for Multiscale Scene Representation. CVPR 2022: 16231-16241 - [c96]Axel Levy, Frédéric Poitevin, Julien N. P. Martel, Youssef S. G. Nashed, Ariana Peck, Nina Miolane, Daniel Ratner, Mike Dunne, Gordon Wetzstein:
CryoAI: Amortized Inference of Poses for Ab Initio Reconstruction of 3D Molecular Volumes from Real Cryo-EM Images. ECCV (21) 2022: 540-557 - [c95]Cindy M. Nguyen, Julien N. P. Martel, Gordon Wetzstein:
Learning Spatially Varying Pixel Exposures for Motion Deblurring. ICCP 2022: 1-11 - [c94]Haley M. So, Julien N. P. Martel, Gordon Wetzstein, Piotr Dudek:
MantissaCam: Learning Snapshot High-dynamic-range Imaging with Perceptually-based In-pixel Irradiance Encoding. ICCP 2022: 1-12 - [c93]Qingqing Zhao, David B. Lindell, Gordon Wetzstein:
Learning to Solve PDE-constrained Inverse Problems with Graph Networks. ICML 2022: 26895-26910 - [c92]Alexander W. Bergman, Petr Kellnhofer, Wang Yifan, Eric R. Chan, David B. Lindell, Gordon Wetzstein:
Generative Neural Articulated Radiance Fields. NeurIPS 2022 - [c91]Axel Levy, Gordon Wetzstein, Julien N. P. Martel, Frédéric Poitevin, Ellen D. Zhong:
Amortized Inference for Heterogeneous Reconstruction in Cryo-EM. NeurIPS 2022 - [c90]Connor Z. Lin, Niloy J. Mitra, Gordon Wetzstein, Leonidas J. Guibas, Paul Guerrero:
NeuForm: Adaptive Overfitting for Neural Shape Editing. NeurIPS 2022 - [c89]Suyeon Choi, Manu Gopakumar, Yifan Peng, Jonghyun Kim, Matthew O'Toole, Gordon Wetzstein:
Time-multiplexed Neural Holography: A Flexible Framework for Holographic Near-eye Displays with Fast Heavily-quantized Spatial Light Modulators. SIGGRAPH (Conference Paper Track) 2022: 32:1-32:9 - [c88]Jonghyun Kim, Manu Gopakumar, Suyeon Choi, Yifan Peng, Ward Lopes, Gordon Wetzstein:
Holographic Glasses for Virtual Reality. SIGGRAPH (Conference Paper Track) 2022: 33:1-33:9 - [i54]Axel Levy, Frédéric Poitevin, Julien N. P. Martel, Youssef S. G. Nashed, Ariana Peck, Nina Miolane, Daniel Ratner, Mike Dunne, Gordon Wetzstein:
CryoAI: Amortized Inference of Poses for Ab Initio Reconstruction of 3D Molecular Volumes from Real Cryo-EM Images. CoRR abs/2203.08138 (2022) - [i53]Connor Z. Lin, David B. Lindell, Eric R. Chan, Gordon Wetzstein:
3D GAN Inversion for Controllable Portrait Image Animation. CoRR abs/2203.13441 (2022) - [i52]Cindy M. Nguyen, Julien N. P. Martel, Gordon Wetzstein:
Learning Spatially Varying Pixel Exposures for Motion Deblurring. CoRR abs/2204.07267 (2022) - [i51]Suyeon Choi, Manu Gopakumar, Yifan Peng, Jonghyun Kim, Matthew O'Toole, Gordon Wetzstein:
Time-multiplexed Neural Holography: A flexible framework for holographic near-eye displays with fast heavily-quantized spatial light modulators. CoRR abs/2205.02367 (2022) - [i50]Qingqing Zhao, David B. Lindell, Gordon Wetzstein:
Learning to Solve PDE-constrained Inverse Problems with Graph Networks. CoRR abs/2206.00711 (2022) - [i49]Alexander W. Bergman, Petr Kellnhofer, Wang Yifan, Eric R. Chan, David B. Lindell, Gordon Wetzstein:
Generative Neural Articulated Radiance Fields. CoRR abs/2206.14314 (2022) - [i48]Sherwin Bahmani, Jeong Joon Park, Despoina Paschalidou, Hao Tang, Gordon Wetzstein, Leonidas J. Guibas, Luc Van Gool, Radu Timofte:
3D-Aware Video Generation. CoRR abs/2206.14797 (2022) - [i47]Connor Z. Lin, Niloy J. Mitra, Gordon Wetzstein, Leonidas J. Guibas, Paul Guerrero:
NeuForm: Adaptive Overfitting for Neural Shape Editing. CoRR abs/2207.08890 (2022) - [i46]Youssef S. G. Nashed, Ariana Peck, Julien N. P. Martel, Axel Levy, Bongjin Koo, Gordon Wetzstein, Nina Miolane, Daniel Ratner, Frédéric Poitevin:
Heterogeneous reconstruction of deformable atomic models in Cryo-EM. CoRR abs/2209.15121 (2022) - [i45]Axel Levy, Gordon Wetzstein, Julien N. P. Martel, Frédéric Poitevin, Ellen D. Zhong:
Amortized Inference for Heterogeneous Reconstruction in Cryo-EM. CoRR abs/2210.07387 (2022) - [i44]Dave Van Veen, Rogier van der Sluijs, Batu Ozturkler, Arjun D. Desai, Christian Bluethgen, Robert D. Boutin, Marc H. Willis, Gordon Wetzstein, David B. Lindell, Shreyas Vasanawala, John M. Pauly, Akshay S. Chaudhari:
Scale-Agnostic Super-Resolution in MRI using Feature-Based Coordinate Networks. CoRR abs/2210.08676 (2022) - [i43]Shengqu Cai, Eric Ryan Chan, Songyou Peng, Mohamad Shahbazi, Anton Obukhov, Luc Van Gool, Gordon Wetzstein:
DiffDreamer: Consistent Single-view Perpetual View Generation with Conditional Diffusion Models. CoRR abs/2211.12131 (2022) - [i42]J. Ryan Shue, Eric Ryan Chan, Ryan Po, Zachary Ankner, Jiajun Wu, Gordon Wetzstein:
3D Neural Field Generation using Triplane Diffusion. CoRR abs/2211.16677 (2022) - [i41]Minjung Son, Jeong Joon Park, Leonidas J. Guibas, Gordon Wetzstein:
SinGRAF: Learning a 3D Generative Radiance Field for a Single Scene. CoRR abs/2211.17260 (2022) - [i40]Zhen Wang, Shijie Zhou, Jeong Joon Park, Despoina Paschalidou, Suya You, Gordon Wetzstein, Leonidas J. Guibas, Achuta Kadambi:
ALTO: Alternating Latent Topologies for Implicit 3D Reconstruction. CoRR abs/2212.04096 (2022) - [i39]Yufeng Zheng, Wang Yifan, Gordon Wetzstein, Michael J. Black, Otmar Hilliges:
PointAvatar: Deformable Point-based Head Avatars from Videos. CoRR abs/2212.08377 (2022) - [i38]Zhengfei Kuang, Fujun Luan, Sai Bi, Zhixin Shu, Gordon Wetzstein, Kalyan Sunkavalli:
PaletteNeRF: Palette-based Appearance Editing of Neural Radiance Fields. CoRR abs/2212.10699 (2022) - 2021
- [j55]Christopher A. Metzler, David B. Lindell, Gordon Wetzstein:
Keyhole Imaging: Non-Line-of-Sight Imaging and Tracking of Moving Objects Along a Single Optical Path. IEEE Trans. Computational Imaging 7: 1-12 (2021) - [j54]Steven Diamond, Vincent Sitzmann, Frank D. Julca-Aguilar, Stephen P. Boyd, Gordon Wetzstein, Felix Heide:
Dirty Pixels: Towards End-to-end Image Processing and Perception. ACM Trans. Graph. 40(3): 23:1-23:15 (2021) - [j53]Brooke Krajancich, Petr Kellnhofer, Gordon Wetzstein:
A perceptual model for eccentricity-dependent spatio-temporal flicker fusion and its applications to foveated graphics. ACM Trans. Graph. 40(4): 47:1-47:11 (2021) - [j52]Julien N. P. Martel, David B. Lindell, Connor Z. Lin, Eric R. Chan, Marco Monteiro, Gordon Wetzstein:
Acorn: adaptive coordinate networks for neural scene representation. ACM Trans. Graph. 40(4): 58:1-58:13 (2021) - [j51]Suyeon Choi, Manu Gopakumar, Yifan Peng, Jonghyun Kim, Gordon Wetzstein:
Neural 3D holography: learning accurate wave propagation models for 3D holographic virtual and augmented reality displays. ACM Trans. Graph. 40(6): 240:1-240:12 (2021) - [j50]Anastasios N. Angelopoulos, Julien N. P. Martel, Amit P. S. Kohli, Jörg Conradt, Gordon Wetzstein:
Event-Based Near-Eye Gaze Tracking Beyond 10, 000 Hz. IEEE Trans. Vis. Comput. Graph. 27(5): 2577-2586 (2021) - [c87]Petr Kellnhofer, Lars Jebe, Andrew Jones, Ryan Spicer, Kari Pulli, Gordon Wetzstein:
Neural Lumigraph Rendering. CVPR 2021: 4287-4297 - [c86]Eric R. Chan, Marco Monteiro, Petr Kellnhofer, Jiajun Wu, Gordon Wetzstein:
Pi-GAN: Periodic Implicit Generative Adversarial Networks for 3D-Aware Image Synthesis. CVPR 2021: 5799-5809 - [c85]David B. Lindell, Julien N. P. Martel, Gordon Wetzstein:
AutoInt: Automatic Integration for Fast Neural Volume Rendering. CVPR 2021: 14556-14565 - [c84]Christopher A. Metzler, Gordon Wetzstein:
Deep S3PR: Simultaneous Source Separation and Phase Retrieval Using Deep Generative Models. ICASSP 2021: 1370-1374 - [c83]Ruangrawee Kitichotkul, Christopher A. Metzler, Frank Ong, Gordon Wetzstein:
Suremap: Predicting Uncertainty in Cnn-Based Image Reconstructions Using Stein's Unbiased Risk Estimate. ICASSP 2021: 1385-1389 - [c82]Christopher A. Metzler, Gordon Wetzstein:
D-VDAMP: Denoising-Based Approximate Message Passing for Compressive MRI. ICASSP 2021: 1410-1414 - [c81]Hayato Ikoma, Cindy M. Nguyen, Christopher A. Metzler, Yifan Peng, Gordon Wetzstein:
Depth from Defocus with Learned Optics for Imaging and Occlusion-aware Depth Estimation. ICCP 2021: 1-12 - [c80]Seung-Hwan Baek, Hayato Ikoma, Daniel S. Jeon, Yuqi Li, Wolfgang Heidrich, Gordon Wetzstein, Min H. Kim:
Single-shot Hyperspectral-Depth Imaging with Learned Diffractive Optics. ICCV 2021: 2631-2640 - [c79]Edwin Vargas, Julien N. P. Martel, Gordon Wetzstein, Henry Arguello:
Time-Multiplexed Coded Aperture Imaging: Learned Coded Aperture and Pixel Exposures for Compressive Imaging Systems. ICCV 2021: 2672-2682 - [c78]Alexander W. Bergman, Petr Kellnhofer, Gordon Wetzstein:
Fast Training of Neural Lumigraph Representations using Meta Learning. NeurIPS 2021: 172-186 - [c77]Ayush Tewari, Ohad Fried, Justus Thies, Vincent Sitzmann, Stephen Lombardi, Zexiang Xu, Tomas Simon, Matthias Nießner, Edgar Tretschk, Lingjie Liu, Ben Mildenhall, Pratul P. Srinivasan, Rohit Pandey, Sergio Orts-Escolano, Sean Ryan Fanello, Michelle Guo, Gordon Wetzstein, Jun-Yan Zhu, Christian Theobalt, Maneesh Agrawala, Daniel B. Goldman, Michael Zollhöfer:
Advances in neural rendering. SIGGRAPH Courses 2021: 1:1-1:320 - [i37]Petr Kellnhofer, Lars Jebe, Andrew Jones, Ryan Spicer, Kari Pulli, Gordon Wetzstein:
Neural Lumigraph Rendering. CoRR abs/2103.11571 (2021) - [i36]Daniel Martin, Ana Serrano, Alexander W. Bergman, Gordon Wetzstein, Belén Masiá:
ScanGAN360: A Generative Model of Realistic Scanpaths for 360$^{\circ}$ Images. CoRR abs/2103.13922 (2021) - [i35]Edwin Vargas, Julien N. P. Martel, Gordon Wetzstein, Henry Arguello:
Time-Multiplexed Coded Aperture Imaging: Learned Coded Aperture and Pixel Exposures for Compressive Imaging Systems. CoRR abs/2104.02820 (2021) - [i34]Brooke Krajancich, Petr Kellnhofer, Gordon Wetzstein:
A Perceptual Model for Eccentricity-dependent Spatio-temporal Flicker Fusion and its Applications to Foveated Graphics. CoRR abs/2104.13514 (2021) - [i33]Julien N. P. Martel, David B. Lindell, Connor Z. Lin, Eric R. Chan, Marco Monteiro, Gordon Wetzstein:
ACORN: Adaptive Coordinate Networks for Neural Scene Representation. CoRR abs/2105.02788 (2021) - [i32]Alexander W. Bergman, Petr Kellnhofer, Gordon Wetzstein:
Fast Training of Neural Lumigraph Representations using Meta Learning. CoRR abs/2106.14942 (2021) - [i31]Luke Hsiao, Brooke Krajancich, Philip Alexander Levis, Gordon Wetzstein, Keith Winstein:
Towards Retina-Quality VR Video Streaming: 15ms Could Save You 80% of Your Bandwidth. CoRR abs/2108.12720 (2021) - [i30]Ayush Tewari, Justus Thies, Ben Mildenhall, Pratul P. Srinivasan, Edgar Tretschk, Wang Yifan, Christoph Lassner, Vincent Sitzmann, Ricardo Martin-Brualla, Stephen Lombardi, Tomas Simon, Christian Theobalt, Matthias Nießner, Jonathan T. Barron, Gordon Wetzstein, Michael Zollhöfer, Vladislav Golyanik:
Advances in Neural Rendering. CoRR abs/2111.05849 (2021) - [i29]David B. Lindell, Dave Van Veen, Jeong Joon Park, Gordon Wetzstein:
BACON: Band-limited Coordinate Networks for Multiscale Scene Representation. CoRR abs/2112.04645 (2021) - [i28]Haley M. So, Julien N. P. Martel, Piotr Dudek, Gordon Wetzstein:
MantissaCam: Learning Snapshot High-dynamic-range Imaging with Perceptually-based In-pixel Irradiance Encoding. CoRR abs/2112.05221 (2021) - [i27]Eric R. Chan, Connor Z. Lin, Matthew A. Chan, Koki Nagano, Boxiao Pan, Shalini De Mello, Orazio Gallo, Leonidas J. Guibas, Jonathan Tremblay, Sameh Khamis, Tero Karras, Gordon Wetzstein:
Efficient Geometry-aware 3D Generative Adversarial Networks. CoRR abs/2112.07945 (2021) - 2020
- [j49]Ayush Tewari, Ohad Fried, Justus Thies, Vincent Sitzmann, Stephen Lombardi, Kalyan Sunkavalli, Ricardo Martin-Brualla, Tomas Simon, Jason M. Saragih, Matthias Nießner, Rohit Pandey, Sean Ryan Fanello, Gordon Wetzstein, Jun-Yan Zhu, Christian Theobalt, Maneesh Agrawala, Eli Shechtman, Dan B. Goldman, Michael Zollhöfer:
State of the Art on Neural Rendering. Comput. Graph. Forum 39(2): 701-727 (2020) - [j48]Julien N. P. Martel, Lorenz K. Müller, Stephen J. Carey, Piotr Dudek, Gordon Wetzstein:
Neural Sensors: Learning Pixel Exposures for HDR Imaging and Video Compressive Sensing With Programmable Sensors. IEEE Trans. Pattern Anal. Mach. Intell. 42(7): 1642-1653 (2020) - [j47]Robert Konrad, Anastasios Angelopoulos, Gordon Wetzstein:
Gaze-Contingent Ocular Parallax Rendering for Virtual Reality. ACM Trans. Graph. 39(2): 10:1-10:12 (2020) - [j46]Yifan Peng, Suyeon Choi, Nitish Padmanaban, Gordon Wetzstein:
Neural holography with camera-in-the-loop training. ACM Trans. Graph. 39(6): 185:1-185:14 (2020) - [j45]Quan Zheng, Vahid Babaei, Gordon Wetzstein, Hans-Peter Seidel, Matthias Zwicker, Gurprit Singh:
Neural light field 3D printing. ACM Trans. Graph. 39(6): 207:1-207:12 (2020) - [j44]Brooke Krajancich, Petr Kellnhofer, Gordon Wetzstein:
Optimizing depth perception in virtual and augmented reality through gaze-contingent stereo rendering. ACM Trans. Graph. 39(6): 269:1-269:10 (2020) - [j43]Brooke Krajancich, Nitish Padmanaban, Gordon Wetzstein:
Factored Occlusion: Single Spatial Light Modulator Occlusion-capable Optical See-through Augmented Reality Display. IEEE Trans. Vis. Comput. Graph. 26(5): 1871-1879 (2020) - [c76]Amit Pal Singh Kohli, Vincent Sitzmann, Gordon Wetzstein:
Semantic Implicit Neural Scene Representations With Semi-Supervised Training. 3DV 2020: 423-433 - [c75]Gordon Wetzstein, Hayato Ikoma, Christopher A. Metzler, Yifan Peng:
Deep Optics: Learning Cameras and Optical Computing Systems. ACSSC 2020: 1313-1315 - [c74]Christopher A. Metzler, Hayato Ikoma, Yifan Peng, Gordon Wetzstein:
Deep Optics for Single-Shot High-Dynamic-Range Imaging. CVPR 2020: 1372-1382 - [c73]Sean I. Young, David B. Lindell, Bernd Girod, David Taubman, Gordon Wetzstein:
Non-Line-of-Sight Surface Reconstruction Using the Directional Light-Cone Transform. CVPR 2020: 1404-1413 - [c72]Mark Nishimura, David B. Lindell, Christopher A. Metzler, Gordon Wetzstein:
Disambiguating Monocular Depth Estimation with a Single Transient. ECCV (21) 2020: 139-155 - [c71]Alexander W. Bergman, David B. Lindell, Gordon Wetzstein:
Deep Adaptive LiDAR: End-to-end Optimization of Sampling and Depth Completion at Low Sampling Rates. ICCP 2020: 1-11 - [c70]Supriya Sathyanarayana, Christoph Leuze, Brian A. Hargreaves, Bruce L. Daniel, Gordon Wetzstein, Amit Etkin, Mahendra T. Bhati, Jennifer A. McNab:
Comparison of head pose tracking methods for mixed-reality neuronavigation for transcranial magnetic stimulation. Image-Guided Procedures 2020: 113150L - [c69]Vincent Sitzmann, Eric R. Chan, Richard Tucker, Noah Snavely, Gordon Wetzstein:
MetaSDF: Meta-Learning Signed Distance Functions. NeurIPS 2020 - [c68]Vincent Sitzmann, Julien N. P. Martel, Alexander W. Bergman, David B. Lindell, Gordon Wetzstein:
Implicit Neural Representations with Periodic Activation Functions. NeurIPS 2020 - [c67]Yifan (Evan) Peng, Ashok Veeraraghavan, Wolfgang Heidrich, Gordon Wetzstein:
Deep optics: joint design of optics and image recovery algorithms for domain specific cameras. SIGGRAPH Courses 2020: 7:1-7:133 - [c66]Yifan Peng, Suyeon Choi, Nitish Padmanaban, Jonghyun Kim, Gordon Wetzstein:
Neural Holography. SIGGRAPH Emerging Technologies 2020: 8:1-8:2 - [p2]Christian Richardt, James Tompkin, Gordon Wetzstein:
Capture, Reconstruction, and Representation of the Visual Real World for Virtual Reality. Real VR 2020: 3-32 - [p1]Gordon Wetzstein, Anjul Patney, Qi Sun:
State of the Art in Perceptual VR Displays. Real VR 2020: 221-243 - [i26]Christopher A. Metzler, Gordon Wetzstein:
Deep S3PR: Simultaneous Source Separation and Phase Retrieval Using Deep Generative Models. CoRR abs/2002.05856 (2020) - [i25]Amit P. S. Kohli, Vincent Sitzmann, Gordon Wetzstein:
Inferring Semantic Information with 3D Neural Scene Representations. CoRR abs/2003.12673 (2020) - [i24]Anastasios N. Angelopoulos, Julien N. P. Martel, Amit P. S. Kohli, Jörg Conradt, Gordon Wetzstein:
Event Based, Near Eye Gaze Tracking Beyond 10, 000Hz. CoRR abs/2004.03577 (2020) - [i23]Ayush Tewari, Ohad Fried, Justus Thies, Vincent Sitzmann, Stephen Lombardi, Kalyan Sunkavalli, Ricardo Martin-Brualla, Tomas Simon, Jason M. Saragih, Matthias Nießner, Rohit Pandey, Sean Ryan Fanello, Gordon Wetzstein, Jun-Yan Zhu, Christian Theobalt, Maneesh Agrawala, Eli Shechtman, Dan B. Goldman, Michael Zollhöfer:
State of the Art on Neural Rendering. CoRR abs/2004.03805 (2020) - [i22]Vincent Sitzmann, Julien N. P. Martel, Alexander W. Bergman, David B. Lindell, Gordon Wetzstein:
Implicit Neural Representations with Periodic Activation Functions. CoRR abs/2006.09661 (2020) - [i21]Vincent Sitzmann, Eric R. Chan, Richard Tucker, Noah Snavely, Gordon Wetzstein:
MetaSDF: Meta-learning Signed Distance Functions. CoRR abs/2006.09662 (2020) - [i20]Seung-Hwan Baek, Hayato Ikoma, Daniel S. Jeon, Yuqi Li, Wolfgang Heidrich, Gordon Wetzstein, Min H. Kim:
End-to-End Hyperspectral-Depth Imaging with Learned Diffractive Optics. CoRR abs/2009.00463 (2020) - [i19]Suyeon Choi, Jonghyun Kim, Yifan Peng, Gordon Wetzstein:
Michelson Holography: Dual-SLM Holography with Camera-in-the-loop Optimization. CoRR abs/2009.09302 (2020) - [i18]Ruangrawee Kitichotkul, Christopher A. Metzler, Frank Ong, Gordon Wetzstein:
SUREMap: Predicting Uncertainty in CNN-based Image Reconstruction Using Stein's Unbiased Risk Estimate. CoRR abs/2010.13214 (2020) - [i17]Eric R. Chan, Marco Monteiro, Petr Kellnhofer, Jiajun Wu, Gordon Wetzstein:
pi-GAN: Periodic Implicit Generative Adversarial Networks for 3D-Aware Image Synthesis. CoRR abs/2012.00926 (2020) - [i16]David B. Lindell, Julien N. P. Martel, Gordon Wetzstein:
AutoInt: Automatic Integration for Fast Neural Volume Rendering. CoRR abs/2012.01714 (2020)
2010 – 2019
- 2019
- [j42]Felix Heide, Matthew O'Toole, Kai Zang, David B. Lindell, Steven Diamond, Gordon Wetzstein:
Non-line-of-sight Imaging with Partial Occluders and Surface Normals. ACM Trans. Graph. 38(3): 22:1-22:10 (2019) - [j41]David B. Lindell, Gordon Wetzstein, Matthew O'Toole:
Wave-based non-line-of-sight imaging using fast f-k migration. ACM Trans. Graph. 38(4): 116:1-116:13 (2019) - [j40]Nitish Padmanaban, Yifan Peng, Gordon Wetzstein:
Holographic near-eye displays based on overlap-add stereograms. ACM Trans. Graph. 38(6): 214:1-214:13 (2019) - [j39]Yifan Peng, Qilin Sun, Xiong Dun, Gordon Wetzstein, Wolfgang Heidrich, Felix Heide:
Learned large field-of-view imaging with thin-plate optics. ACM Trans. Graph. 38(6): 219:1-219:14 (2019) - [j38]Kishore Rathinavel, Gordon Wetzstein, Henry Fuchs:
Varifocal Occlusion-Capable Optical See-through Augmented Reality Display based on Focus-tunable Optics. IEEE Trans. Vis. Comput. Graph. 25(11): 3125-3134 (2019) - [c65]Vincent Sitzmann, Justus Thies, Felix Heide, Matthias Nießner, Gordon Wetzstein, Michael Zollhöfer:
DeepVoxels: Learning Persistent 3D Feature Embeddings. CVPR 2019: 2437-2446 - [c64]David B. Lindell, Gordon Wetzstein, Vladlen Koltun:
Acoustic Non-Line-Of-Sight Imaging. CVPR 2019: 6780-6789 - [c63]Donald G. Dansereau, Bernd Girod, Gordon Wetzstein:
LiFF: Light Field Features in Scale and Depth. CVPR 2019: 8042-8051 - [c62]Julie Chang, Gordon Wetzstein:
Deep Optics for Monocular Depth Estimation and 3D Object Detection. ICCV 2019: 10192-10201 - [c61]Vincent Sitzmann, Michael Zollhöfer, Gordon Wetzstein:
Scene Representation Networks: Continuous 3D-Structure-Aware Neural Scene Representations. NeurIPS 2019: 1119-1130 - [c60]Nitish Padmanaban, Robert Konrad, Gordon Wetzstein:
Autofocals: evaluating gaze-contingent eyeglasses for presbyopes. SIGGRAPH Talks 2019: 55:1-55:2 - [c59]Robert Konrad, Anastasios Angelopoulos, Gordon Wetzstein:
Gaze-contingent ocular parallax rendering for virtual reality. SIGGRAPH Talks 2019: 56:1-56:2 - [c58]Miguel Galindo, Julio Marco, Matthew O'Toole, Gordon Wetzstein, Diego Gutierrez, Adrián Jarabo:
A dataset for benchmarking time-resolved non-line-of-sight imaging. SIGGRAPH Posters 2019: 73:1-73:2 - [e1]Jehee Lee, Christian Theobalt, Gordon Wetzstein:
27th Pacific Conference on Computer Graphics and Applications, PG 2019 - Short Papers, Seoul, South Korea, October 14-17, 2019. Eurographics Association 2019, ISBN 978-3-03868-099-4 [contents] - [i15]Donald G. Dansereau, Bernd Girod, Gordon Wetzstein:
LiFF: Light Field Features in Scale and Depth. CoRR abs/1901.03916 (2019) - [i14]Julie Chang, Gordon Wetzstein:
Deep Optics for Monocular Depth Estimation and 3D Object Detection. CoRR abs/1904.08601 (2019) - [i13]Vincent Sitzmann, Michael Zollhöfer, Gordon Wetzstein:
Scene Representation Networks: Continuous 3D-Structure-Aware Neural Scene Representations. CoRR abs/1906.01618 (2019) - [i12]Robert Konrad, Anastasios Angelopoulos, Gordon Wetzstein:
Gaze-Contingent Ocular Parallax Rendering for Virtual Reality. CoRR abs/1906.09740 (2019) - [i11]Christopher A. Metzler, Hayato Ikoma, Yifan Peng, Gordon Wetzstein:
Deep Optics for Single-shot High-dynamic-range Imaging. CoRR abs/1908.00620 (2019) - [i10]Christopher A. Metzler, David B. Lindell, Gordon Wetzstein:
Keyhole Imaging: Non-Line-of-Sight Imaging and Tracking of Moving Objects Along a Single Optical Path at Long Standoff Distances. CoRR abs/1912.06727 (2019) - 2018
- [j37]Matthew O'Toole, David B. Lindell, Gordon Wetzstein:
Confocal non-line-of-sight imaging based on the light-cone transform. Nat. 555(7696): 338-341 (2018) - [j36]Hanseul Jun, Jeremy N. Bailenson, Henry Fuchs, Gordon Wetzstein:
An Easy-to-Use Pipeline for an RGBD Camera and an AR Headset. Presence Teleoperators Virtual Environ. 27(2): 202-205 (2018) - [j35]Xue-mei Hu, Felix Heide, Qionghai Dai, Gordon Wetzstein:
Convolutional Sparse Coding for RGB+NIR Imaging. IEEE Trans. Image Process. 27(4): 1611-1625 (2018) - [j34]David B. Lindell, Matthew O'Toole, Gordon Wetzstein:
Single-photon 3D imaging with deep sensor fusion. ACM Trans. Graph. 37(4): 113 (2018) - [j33]Vincent Sitzmann, Steven Diamond, Yifan Peng, Xiong Dun, Stephen P. Boyd, Wolfgang Heidrich, Felix Heide, Gordon Wetzstein:
End-to-end optimization of optics and image processing for achromatic extended depth of field and super-resolution imaging. ACM Trans. Graph. 37(4): 114 (2018) - [j32]Nitish Padmanaban, Timon Ruban, Vincent Sitzmann, Anthony M. Norcia, Gordon Wetzstein:
Towards a Machine-Learning Approach for Sickness Prediction in 360° Stereoscopic Videos. IEEE Trans. Vis. Comput. Graph. 24(4): 1594-1603 (2018) - [j31]Vincent Sitzmann, Ana Serrano, Amy Pavel, Maneesh Agrawala, Diego Gutierrez, Belén Masiá, Gordon Wetzstein:
Saliency in VR: How Do People Explore Virtual Environments? IEEE Trans. Vis. Comput. Graph. 24(4): 1633-1642 (2018) - [c57]Shuochen Su, Felix Heide, Gordon Wetzstein, Wolfgang Heidrich:
Deep End-to-End Time-of-Flight Imaging. CVPR 2018: 6383-6392 - [c56]David B. Lindell, Matthew O'Toole, Gordon Wetzstein:
Towards transient imaging at interactive rates with single-photon detectors. ICCP 2018: 1-8 - [c55]Matthew O'Toole, David B. Lindell, Gordon Wetzstein:
Confocal non-line-of-sight imaging. SIGGRAPH Talks 2018: 1:1-1:2 - [c54]Nitish Padmanaban, Robert Konrad, Gordon Wetzstein:
Autofocals: gaze-contingent eyeglasses for presbyopes. SIGGRAPH Emerging Technologies 2018: 3:1-3:2 - [c53]Matthew O'Toole, David B. Lindell, Gordon Wetzstein:
Real-time non-line-of-sight imaging. SIGGRAPH Emerging Technologies 2018: 14:1-14:2 - [i9]Ana Serrano, Vincent Sitzmann, Jaime Ruiz-Borau, Gordon Wetzstein, Diego Gutierrez, Belén Masiá:
Movie Editing and Cognitive Event Segmentation in Virtual Reality Video. CoRR abs/1806.04924 (2018) - [i8]Ana Serrano, Felix Heide, Diego Gutierrez, Gordon Wetzstein, Belén Masiá:
Convolutional Sparse Coding for High Dynamic Range Imaging. CoRR abs/1806.04942 (2018) - [i7]Vincent Sitzmann, Justus Thies, Felix Heide, Matthias Nießner, Gordon Wetzstein, Michael Zollhöfer:
DeepVoxels: Learning Persistent 3D Feature Embeddings. CoRR abs/1812.01024 (2018) - 2017
- [j30]Ana Serrano, Vincent Sitzmann, Jaime Ruiz-Borau, Gordon Wetzstein, Diego Gutierrez, Belén Masiá:
Movie editing and cognitive event segmentation in virtual reality video. ACM Trans. Graph. 36(4): 47:1-47:12 (2017) - [j29]Robert Konrad, Nitish Padmanaban, Keenan Molner, Emily A. Cooper, Gordon Wetzstein:
Accommodation-invariant computational near-eye displays. ACM Trans. Graph. 36(4): 88:1-88:12 (2017) - [j28]Robert Konrad, Donald G. Dansereau, Aniq Masood, Gordon Wetzstein:
SpinVR: towards live-streaming 3D virtual reality video. ACM Trans. Graph. 36(6): 209:1-209:12 (2017) - [j27]Clara Callenberg, Felix Heide, Gordon Wetzstein, Matthias B. Hullin:
Snapshot difference imaging using correlation time-of-flight sensors. ACM Trans. Graph. 36(6): 220:1-220:11 (2017) - [c52]Matthew O'Toole, Felix Heide, David B. Lindell, Kai Zang, Steven Diamond, Gordon Wetzstein:
Reconstructing Transient Images from Single-Photon Sensors. CVPR 2017: 2289-2297 - [c51]Donald G. Dansereau, Glenn Schuster, Joseph Ford, Gordon Wetzstein:
A Wide-Field-of-View Monocentric Light Field Camera. CVPR 2017: 3757-3766 - [c50]Isaac Kauvar, Julie Chang, Gordon Wetzstein:
Aperture interference and the volumetric resolution of light field fluorescence microscopy. ICCP 2017: 83-94 - [c49]Biswarup Choudhury, Robin Swanson, Felix Heide, Gordon Wetzstein, Wolfgang Heidrich:
Consensus Convolutional Sparse Coding. ICCV 2017: 4290-4298 - [c48]Anjul Patney, Marina Zannoli, George Alex Koulieris, Joohwan Kim, Gordon Wetzstein, Frank Steinicke:
Applications of visual perception to virtual reality rendering. SIGGRAPH Courses 2017: 1:1-1:38 - [c47]Gordon Wetzstein, Robert Konrad, Nitish Padmanaban, Hayato Ikoma:
Build your own VR system: an introduction to VR displays and cameras for hobbyists and educators. SIGGRAPH Courses 2017: 14:1-14:786 - [c46]Nitish Padmanaban, Robert Konrad, Emily A. Cooper, Gordon Wetzstein:
Optimizing VR for all users through adaptive focus displays. SIGGRAPH Talks 2017: 77:1-77:2 - [i6]Steven Diamond, Vincent Sitzmann, Stephen P. Boyd, Gordon Wetzstein, Felix Heide:
Dirty Pixels: Optimizing Image Classification Architectures for Raw Sensor Data. CoRR abs/1701.06487 (2017) - [i5]Clara Callenberg, Felix Heide, Gordon Wetzstein, Matthias B. Hullin:
Snapshot Difference Imaging using Time-of-Flight Sensors. CoRR abs/1705.07108 (2017) - [i4]Steven Diamond, Vincent Sitzmann, Felix Heide, Gordon Wetzstein:
Unrolled Optimization with Deep Priors. CoRR abs/1705.08041 (2017) - [i3]Felix Heide, Matthew O'Toole, Kai Zhang, David B. Lindell, Steven Diamond, Gordon Wetzstein:
Robust Non-line-of-sight Imaging with Single Photon Detectors. CoRR abs/1711.07134 (2017) - 2016
- [j26]Ana Serrano, Felix Heide, Diego Gutierrez, Gordon Wetzstein, Belén Masiá:
Convolutional Sparse Coding for High Dynamic Range Imaging. Comput. Graph. Forum 35(2): 153-163 (2016) - [j25]Mahdad Hosseini Kamal, Barmak Heshmat, Ramesh Raskar, Pierre Vandergheynst, Gordon Wetzstein:
Tensor low-rank and sparse light field photography. Comput. Vis. Image Underst. 145: 172-181 (2016) - [j24]Gordon Wetzstein, Douglas Lanman:
Factored Displays: Improving resolution, dynamic range, color reproduction, and light field characteristics with advanced signal processing. IEEE Signal Process. Mag. 33(5): 119-129 (2016) - [j23]Shikhar Shrestha, Felix Heide, Wolfgang Heidrich, Gordon Wetzstein:
Computational imaging with multi-camera time-of-flight systems. ACM Trans. Graph. 35(4): 33:1-33:11 (2016) - [j22]Felix Heide, Steven Diamond, Matthias Nießner, Jonathan Ragan-Kelley, Wolfgang Heidrich, Gordon Wetzstein:
ProxImaL: efficient image optimization using proximal algorithms. ACM Trans. Graph. 35(4): 84:1-84:15 (2016) - [c45]Robert Konrad, Emily A. Cooper, Gordon Wetzstein:
Novel Optical Configurations for Virtual Reality: Evaluating User Preference and Performance with Focus-tunable and Monovision Near-eye Displays. CHI 2016: 1211-1220 - [c44]Julie Chang, Isaac Kauvar, Xuemei Hu, Gordon Wetzstein:
Variable Aperture Light Field Photography: Overcoming the Diffraction-Limited Spatio-Angular Resolution Tradeoff. CVPR 2016: 3737-3745 - [c43]Jayant Thatte, Jean-Baptiste Boin, Haricharan Lakshman, Gordon Wetzstein, Bernd Girod:
Depth augmented stereo panorama for cinematic virtual reality with focus cues. ICIP 2016: 1569-1573 - [c42]Robert Konrad, Nitish Padmanaban, Emily B. Cooper, Gordon Wetzstein:
Computational focus-tunable near-eye displays. SIGGRAPH Emerging Technologies 2016: 3:1-3:2 - [i2]Vincent Sitzmann, Ana Serrano, Amy Pavel, Maneesh Agrawala, Diego Gutierrez, Gordon Wetzstein:
Saliency in VR: How do people explore virtual environments? CoRR abs/1612.04335 (2016) - 2015
- [j21]Felix Heide, Wolfgang Heidrich, Matthias B. Hullin, Gordon Wetzstein:
Doppler time-of-flight imaging. ACM Trans. Graph. 34(4): 36:1-36:11 (2015) - [j20]Fu-Chung Huang, Kevin Chen, Gordon Wetzstein:
The light field stereoscope: immersive computer graphics via factored near-eye light field displays with focus cues. ACM Trans. Graph. 34(4): 60:1-60:12 (2015) - [j19]Isaac Kauvar, Samuel J. Yang, Liang Shi, Ian McDowall, Gordon Wetzstein:
Adaptive color display via perceptually-driven factored spectral projection. ACM Trans. Graph. 34(6): 165:1-165:10 (2015) - [c41]Felix Heide, Wolfgang Heidrich, Gordon Wetzstein:
Fast and flexible convolutional sparse coding. CVPR 2015: 5135-5143 - [c40]Felix Heide, Gordon Wetzstein, Matthias B. Hullin, Wolfgang Heidrich:
Doppler time-of-flight imaging. SIGGRAPH Emerging Technologies 2015: 9:1 - [c39]Fu-Chung Huang, David P. Luebke, Gordon Wetzstein:
The light field stereoscope. SIGGRAPH Emerging Technologies 2015: 24:1 - 2014
- [j18]Gordon Wetzstein, Wolfgang Heidrich, Ramesh Raskar:
Computational Schlieren Photography with Light Field Probes. Int. J. Comput. Vis. 110(2): 113-127 (2014) - [j17]Di Wu, Gordon Wetzstein, Christopher Barsi, Thomas Willwacher, Qionghai Dai, Ramesh Raskar:
Ultra-fast Lensless Computational Imaging through 5D Frequency Analysis of Time-resolved Light Transport. Int. J. Comput. Vis. 110(2): 128-140 (2014) - [j16]Matthew Hirsch, Gordon Wetzstein, Ramesh Raskar:
A compressive light field projection system. ACM Trans. Graph. 33(4): 58:1-58:12 (2014) - [j15]Fu-Chung Huang, Gordon Wetzstein, Brian A. Barsky, Ramesh Raskar:
Eyeglasses-free display: towards correcting visual aberrations with computational light field displays. ACM Trans. Graph. 33(4): 59:1-59:12 (2014) - [c38]Chenguang Ma, Xing Lin, Jin-Li Suo, Qionghai Dai, Gordon Wetzstein:
Transparent Object Reconstruction via Coded Transport of Intensity. CVPR 2014: 3238-3245 - [c37]Brian A. Barsky, Fu-Chung Huang, Douglas Lanman, Gordon Wetzstein, Ramesh Raskar:
Vision Correcting Displays Based on Inverse Blurring and Aberration Compensation. ECCV Workshops (3) 2014: 524-538 - [c36]Matthew Hirsch, Sriram Sivaramakrishnan, Suren Jayasuriya, Albert Wang, Alyosha C. Molnar, Ramesh Raskar, Gordon Wetzstein:
A switchable light field camera architecture with Angle Sensitive Pixels and dictionary-based sparse coding. ICCP 2014: 1-10 - [c35]Matthew Hirsch, Gordon Wetzstein, Ramesh Raskar:
A compressive light field projection system. SIGGRAPH Emerging Technologies 2014: 2:1 - [c34]Matthew O'Toole, Gordon Wetzstein:
Computational cameras and displays. SIGGRAPH Courses 2014: 9:1-9:230 - [i1]Felix Heide, James Gregson, Gordon Wetzstein, Ramesh Raskar, Wolfgang Heidrich:
A Compressive Multi-Mode Superresolution Display. CoRR abs/1404.5916 (2014) - 2013
- [j14]Belén Masiá, Gordon Wetzstein, Carlos Aliaga, Ramesh Raskar, Diego Gutierrez:
Display adaptive 3D content remapping. Comput. Graph. 37(8): 983-996 (2013) - [j13]Belén Masiá, Gordon Wetzstein, Piotr Didyk, Diego Gutierrez:
A survey on computational displays: Pushing the boundaries of optics, computation, and perception. Comput. Graph. 37(8): 1012-1038 (2013) - [j12]Gordon Wetzstein, Ivo Ihrke, Wolfgang Heidrich:
On Plenoptic Multiplexing and Reconstruction. Int. J. Comput. Vis. 101(2): 384-400 (2013) - [j11]Kshitij Marwah, Gordon Wetzstein, Yosuke Bando, Ramesh Raskar:
Compressive light field photography using overcomplete dictionaries and optimized projections. ACM Trans. Graph. 32(4): 46:1-46:12 (2013) - [j10]Felix Heide, Gordon Wetzstein, Ramesh Raskar, Wolfgang Heidrich:
Adaptive image synthesis for compressive displays. ACM Trans. Graph. 32(4): 132:1-132:12 (2013) - [j9]Andrew Maimone, Gordon Wetzstein, Matthew Hirsch, Douglas Lanman, Ramesh Raskar, Henry Fuchs:
Focus 3D: Compressive accommodation display. ACM Trans. Graph. 32(5): 153:1-153:13 (2013) - [c33]Gordon Wetzstein, Douglas Lanman, Piotr Didyk:
Computational Displays: Combining Optical Fabrication, Computational Processing, and Perceptual Tricks to Build the Displays of the Future. Eurographics (Tutorials) 2013 - [c32]Xing Lin, Jin-Li Suo, Gordon Wetzstein, Qionghai Dai, Ramesh Raskar:
Coded focal stack photography. ICCP 2013: 1-9 - [c31]Chenguang Ma, Jin-Li Suo, Qionghai Dai, Ramesh Raskar, Gordon Wetzstein:
High-rank coded aperture projection for extended depth of field. ICCP 2013: 1-9 - [c30]Fu-Chung Huang, Gordon Wetzstein, Brian A. Barsky, Ramesh Raskar:
Computational light field display for correcting visual aberrations. SIGGRAPH Posters 2013: 40 - 2012
- [j8]Gordon Wetzstein, Douglas Lanman, Matthew Hirsch, Wolfgang Heidrich, Ramesh Raskar:
Compressive Light Field Displays. IEEE Computer Graphics and Applications 32(5): 6-11 (2012) - [j7]Gordon Wetzstein, Douglas Lanman, Matthew Hirsch, Ramesh Raskar:
Tensor displays: compressive light field synthesis using multilayer displays with directional backlighting. ACM Trans. Graph. 31(4): 80:1-80:11 (2012) - [c29]Aydin Arpa, Gordon Wetzstein, Douglas Lanman, Ramesh Raskar:
Single lens off-chip cellphone microscopy. CVPR Workshops 2012: 23-28 - [c28]Di Wu, Gordon Wetzstein, Christopher Barsi, Thomas Willwacher, Matthew O'Toole, Nikhil Naik, Qionghai Dai, Kyros Kutulakos, Ramesh Raskar:
Frequency Analysis of Transient Light Transport with Applications in Bare Sensor Imaging. ECCV (1) 2012: 542-555 - [c27]Douglas Lanman, Gordon Wetzstein, Matthew Hirsch, Wolfgang Heidrich, Ramesh Raskar:
Beyond parallax barriers: applying formal optimization methods to multilayer automultiscopic displays. SD&A 2012: 82880A - [c26]Gordon Wetzstein, Douglas Lanman, Diego Gutierrez, Matthew Hirsch:
Computational displays: combining optical fabrication, computational processing, and perceptual tricks to build the displays of the future. SIGGRAPH Courses 2012: 4:1-4:159 - [c25]Gordon Wetzstein, Ivo Ihrke, Douglas Lanman, Wolfgang Heidrich, Ramesh Raskar, Kurt Akeley:
Computational plenoptic imaging. SIGGRAPH Courses 2012: 11:1-11:265 - [c24]Matthew Hirsch, Douglas Lanman, Gordon Wetzstein, Ramesh Raskar:
Tensor displays. SIGGRAPH Emerging Technologies 2012: 24 - [c23]Everett Lawson, Jason Boggess, Siddharth Khullar, Alex Olwal, Gordon Wetzstein, Ramesh Raskar:
Computational retinal imaging via binocular coupling and indirect illumination. SIGGRAPH Talks 2012: 40 - [c22]Kshitij Marwah, Gordon Wetzstein, Ashok Veeraraghavan, Ramesh Raskar:
Compressive light field photography. SIGGRAPH Talks 2012: 42 - [c21]Kshitij Marwah, Gordon Wetzstein, Ashok Veeraraghavan, Ramesh Raskar:
Compressive light field photography. SIGGRAPH Posters 2012: 49 - [c20]Aydin Arpa, Gordon Wetzstein, Douglas Lanman, Ramesh Raskar:
Computational cellphone microscopy. SIGGRAPH Posters 2012: 50 - [c19]Everett Lawson, Jason Boggess, Siddharth Khullar, Alex Olwal, Gordon Wetzstein, Ramesh Raskar:
Computational retinal imaging via binocular coupling and indirect illumination. SIGGRAPH Posters 2012: 51 - [c18]Belén Masiá, Gordon Wetzstein, Carlos Aliaga, Ramesh Raskar, Diego Gutierrez:
Perceptually-optimized content remapping for automultiscopic displays. SIGGRAPH Posters 2012: 63 - 2011
- [j6]Gordon Wetzstein, Ivo Ihrke, Douglas Lanman, Wolfgang Heidrich:
Computational Plenoptic Imaging. Comput. Graph. Forum 30(8): 2397-2426 (2011) - [j5]Gordon Wetzstein, Douglas Lanman, Wolfgang Heidrich, Ramesh Raskar:
Layered 3D: tomographic image synthesis for attenuation-based light field and high dynamic range displays. ACM Trans. Graph. 30(4): 95 (2011) - [j4]Douglas Lanman, Gordon Wetzstein, Matthew Hirsch, Wolfgang Heidrich, Ramesh Raskar:
Polarization fields: dynamic light field display using multi-layer LCDs. ACM Trans. Graph. 30(6): 186 (2011) - [c17]Gordon Wetzstein, Ivo Ihrke, Douglas Lanman, Wolfgang Heidrich:
Computational Plenoptic Imaging. Eurographics (State of the Art Reports) 2011: 25-48 - [c16]Gordon Wetzstein, Ramesh Raskar, Wolfgang Heidrich:
Hand-held Schlieren Photography with Light Field probes. ICCP 2011: 1-8 - [c15]Gordon Wetzstein, David Roodnick, Wolfgang Heidrich, Ramesh Raskar:
Refractive shape from light field distortion. ICCV 2011: 1180-1186 - 2010
- [j3]Gordon Wetzstein, Wolfgang Heidrich, David P. Luebke:
Optical Image Processing Using Light Modulation Displays. Comput. Graph. Forum 29(6): 1934-1944 (2010) - [j2]Max Grosse, Gordon Wetzstein, Anselm Grundhöfer, Oliver Bimber:
Coded aperture projection. ACM Trans. Graph. 29(3): 22:1-22:12 (2010) - [c14]Ivo Ihrke, Gordon Wetzstein, Wolfgang Heidrich:
A theory of plenoptic multiplexing. CVPR 2010: 483-490 - [c13]Gordon Wetzstein, Ivo Ihrke, Wolfgang Heidrich:
Sensor saturation in Fourier multiplexed imaging. CVPR 2010: 545-552
2000 – 2009
- 2009
- [c12]Max Grosse, Gordon Wetzstein, Oliver Bimber, Anselm Grundhöfer:
Adaptive coded aperture projection. SIGGRAPH Posters 2009 - [c11]Max Grosse, Gordon Wetzstein, Oliver Bimber, Anselm Grundhöfer:
Adaptive coded aperture projection. SIGGRAPH Talks 2009 - 2008
- [j1]Oliver Bimber, Daisuke Iwai, Gordon Wetzstein, Anselm Grundhöfer:
The Visual Computing of Projector-Camera Systems. Comput. Graph. Forum 27(8): 2219-2245 (2008) - [c10]Oliver Bimber, Daisuke Iwai, Gordon Wetzstein, Anselm Grundhöfer:
The visual computing of projector-camera systems. SIGGRAPH Classes 2008: 84:1-84:25 - 2007
- [c9]Oliver Bimber, Daisuke Iwai, Gordon Wetzstein, Anselm Grundhöfer:
The Visual Computing of Projector-Camera Systems. Eurographics (State of the Art Reports) 2007: 23-46 - [c8]Gordon Wetzstein, Oliver Bimber:
Radiometric Compensation through Inverse Light Transport. PG 2007: 391-399 - [c7]Gordon Wetzstein, Moritz Göllner, Stephan Beck, Felix Weiszig, Sebastian Derkau, Jan P. Springer, Bernd Fröhlich:
HECTOR - scripting-based VR system design. SIGGRAPH Posters 2007: 143 - 2006
- [c6]Gordon Wetzstein, Oliver Bimber:
Radiometric compensation of global illumination effects with projector-camera systems. SIGGRAPH Research Posters 2006: 38 - 2005
- [c5]Oliver Bimber, Gordon Wetzstein, Andreas Emmerling, Christian Nitschke:
Enabling View-Dependent Stereoscopic Projection in Real Environments. ISMAR 2005: 14-23 - [c4]Oliver Bimber, Gordon Wetzstein, Andreas Emmerling, Christian Nitschke:
View-dependent stereoscopic projection onto everyday surfaces. SIGGRAPH Emerging Technologies 2005: 27 - [c3]Oliver Bimber, Gordon Wetzstein, Andreas Emmerling, Christian Nitschke, Anselm Grundhöfer:
Enabling view-dependent stereoscopic projection in real environments. SIGGRAPH Sketches 2005: 120 - 2003
- [c2]Oliver Bimber, Anselm Grundhöfer, Gordon Wetzstein, Sebastian Knödel:
Consistent Illumination within Optical See-Through Augmented Environments. ISMAR 2003: 198-207 - [c1]Oliver Bimber, Anselm Grundhöfer, Gordon Wetzstein, Sebastian Knödel:
Consistent illumination within optical see-through augmented environments. SIGGRAPH 2003
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from 
to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the 
of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2025-01-26 23:46 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
