default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDWilliam T. Freeman
Bill Freeman
Person information
- affiliation: MIT, Cambridge, MA, USA
Other persons with a similar name
SPARQL queries 
🛈 Please note that only 65% of the records listed on this page have a DOI. Therefore, DOI-based queries can only provide partial results.
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
[c197]Tianwei Yin, Michaël Gharbi, Richard Zhang, Eli Shechtman, Frédo Durand, William T. Freeman, Taesung Park:
One-Step Diffusion with Distribution Matching Distillation. CVPR 2024: 6613-6623- [c196]Hong-Xing Yu, Haoyi Duan, Junhwa Hur, Kyle Sargent, Michael Rubinstein, William T. Freeman, Forrester Cole, Deqing Sun, Noah Snavely, Jiajun Wu, Charles Herrmann:
WonderJourney: Going from Anywhere to Everywhere. CVPR 2024: 6658-6667 - [c195]Mark Hamilton, Andrew Zisserman, John R. Hershey, William T. Freeman:
Separating the "Chirp" from the "Chat": Self-supervised Visual Grounding of Sound and Language. CVPR 2024: 13117-13127 - [c194]Prafull Sharma, Varun Jampani, Yuanzhen Li, Xuhui Jia, Dmitry Lagun, Frédo Durand, Bill Freeman, Mark J. Matthews:
Alchemist: Parametric Control of Material Properties with Diffusion Models. CVPR 2024: 24130-24141 - [c193]Mark Hamilton
, Simon Stent, Vasha DuTell, Anne Harrington, Jennifer Corbett, Ruth Rosenholtz, William T. Freeman:
Seeing Faces in Things: A Model and Dataset for Pareidolia. ECCV (65) 2024: 377-395 - [c192]Tianyuan Zhang, Hong-Xing Yu, Rundi Wu, Brandon Y. Feng, Changxi Zheng, Noah Snavely, Jiajun Wu, William T. Freeman:
PhysDreamer: Physics-Based Interaction with 3D Objects via Video Generation. ECCV (2) 2024: 388-406 - [c191]Stephanie Fu, Mark Hamilton, Laura E. Brandt, Axel Feldmann, Zhoutong Zhang, William T. Freeman:
FeatUp: A Model-Agnostic Framework for Features at Any Resolution. ICLR 2024 - [c190]Anne Harrington, Vasha DuTell, Mark Hamilton, Ayush Tewari, Simon Stent, William T. Freeman, Ruth Rosenholtz:
COCO-Periph: Bridging the Gap Between Human and Machine Perception in the Periphery. ICLR 2024 - [i103]Stephanie Fu, Mark Hamilton, Laura E. Brandt, Axel Feldmann, Zhoutong Zhang, William T. Freeman:
FeatUp: A Model-Agnostic Framework for Features at Any Resolution. CoRR abs/2403.10516 (2024) - [i102]Tianyuan Zhang, Hong-Xing Yu, Rundi Wu, Brandon Y. Feng, Changxi Zheng, Noah Snavely, Jiajun Wu, William T. Freeman:
PhysDreamer: Physics-Based Interaction with 3D Objects via Video Generation. CoRR abs/2404.13026 (2024) - [i101]Tianwei Yin, Michaël Gharbi, Taesung Park, Richard Zhang, Eli Shechtman, Frédo Durand, William T. Freeman:
Improved Distribution Matching Distillation for Fast Image Synthesis. CoRR abs/2405.14867 (2024) - [i100]Berthy T. Feng, Katherine L. Bouman, William T. Freeman:
Event-horizon-scale Imaging of M87* under Different Assumptions via Deep Generative Image Priors. CoRR abs/2406.02785 (2024) - [i99]Mark Hamilton, Andrew Zisserman, John R. Hershey, William T. Freeman:
Separating the "Chirp" from the "Chat": Self-supervised Visual Grounding of Sound and Language. CoRR abs/2406.05629 (2024) - [i98]Hong-Xing Yu, Haoyi Duan, Charles Herrmann, William T. Freeman, Jiajun Wu:
WonderWorld: Interactive 3D Scene Generation from a Single Image. CoRR abs/2406.09394 (2024) - [i97]Mark Hamilton, Simon Stent, Vasha DuTell, Anne Harrington, Jennifer Corbett, Ruth Rosenholtz, William T. Freeman:
Seeing Faces in Things: A Model and Dataset for Pareidolia. CoRR abs/2409.16143 (2024) - [i96]Tianyuan Zhang, Zhengfei Kuang, Haian Jin, Zexiang Xu, Sai Bi, Hao Tan, He Zhang, Yiwei Hu, Milos Hasan, William T. Freeman, Kai Zhang, Fujun Luan:
RelitLRM: Generative Relightable Radiance for Large Reconstruction Models. CoRR abs/2410.06231 (2024) - [i95]Shivam Duggal, Phillip Isola, Antonio Torralba, William T. Freeman:
Adaptive Length Image Tokenization via Recurrent Allocation. CoRR abs/2411.02393 (2024) - [i94]Ziqi Pang, Tianyuan Zhang, Fujun Luan, Yunze Man, Hao Tan, Kai Zhang, William T. Freeman, Yu-Xiong Wang:
RandAR: Decoder-only Autoregressive Visual Generation in Random Orders. CoRR abs/2412.01827 (2024) - [i93]Tianwei Yin, Qiang Zhang, Richard Zhang, William T. Freeman, Frédo Durand, Eli Shechtman, Xun Huang:
From Slow Bidirectional to Fast Causal Video Generators. CoRR abs/2412.07772 (2024) - 2023
- [j71]Prafull Sharma, Julien Philip, Michaël Gharbi, Bill Freeman, Frédo Durand, Valentin Deschaintre:
Materialistic: Selecting Similar Materials in Images. ACM Trans. Graph. 42(4): 154:1-154:14 (2023) - [c189]Arjun R. Akula, Brendan Driscoll, Pradyumna Narayana, Soravit Changpinyo, Zhiwei Jia, Suyash Damle, Garima Pruthi, Sugato Basu, Leonidas J. Guibas, William T. Freeman, Yuanzhen Li, Varun Jampani:
MetaCLUE: Towards Comprehensive Visual Metaphors Research. CVPR 2023: 23201-23211 - [c188]Christian Koevesdi, Vasha DuTell, Anne Harrington, Mark Hamilton, William T. Freeman, Ruth Rosenholtz:
StatTexNet: Evaluating the Importance of Statistical Parameters for Pyramid-Based Texture and Peripheral Vision Models. Gaze Meets ML 2023: 90-106 - [c187]Brandon Y. Feng, Hadi Alzayer, Michael Rubinstein, William T. Freeman, Jia-Bin Huang:
3D Motion Magnification: Visualizing Subtle Motions with Time-Varying Radiance Fields. ICCV 2023: 9803-9812 - [c186]Berthy T. Feng, Jamie Smith, Michael Rubinstein, Huiwen Chang, Katherine L. Bouman, William T. Freeman:
Score-Based Diffusion Models as Principled Priors for Inverse Imaging. ICCV 2023: 10486-10497 - [c185]Anne Harrington, Vasha DuTell, Ayush Tewari, Mark Hamilton, Simon Stent, Ruth Rosenholtz, William T. Freeman:
Exploring perceptual straightness in learned visual representations. ICLR 2023 - [c184]Prafull Sharma, Ayush Tewari, Yilun Du, Sergey Zakharov, Rares Andrei Ambrus, Adrien Gaidon, William T. Freeman, Frédo Durand, Joshua B. Tenenbaum, Vincent Sitzmann:
Neural Groundplans: Persistent Neural Scene Representations from a Single Image. ICLR 2023 - [c183]Huiwen Chang, Han Zhang, Jarred Barber, Aaron Maschinot, José Lezama, Lu Jiang, Ming-Hsuan Yang, Kevin Patrick Murphy, William T. Freeman, Michael Rubinstein, Yuanzhen Li, Dilip Krishnan:
Muse: Text-To-Image Generation via Masked Generative Transformers. ICML 2023: 4055-4075 - [c182]Brendan Walsh, Mark Hamilton, Greg Newby, Xi Wang, Serena Ruan, Sheng Zhao, Lei He, Shaofei Zhang, Eric Dettinger, William T. Freeman, Markus Weimer:
Large-Scale Automatic Audiobook Creation. INTERSPEECH 2023: 3675-3676 - [c181]Ayush Tewari, Tianwei Yin, George Cazenavette, Semon Rezchikov, Josh Tenenbaum, Frédo Durand, Bill Freeman, Vincent Sitzmann:
Diffusion with Forward Models: Solving Stochastic Inverse Problems Without Direct Supervision. NeurIPS 2023 - [c180]Safa C. Medin, Amir Weiss, Frédo Durand, William T. Freeman, Gregory W. Wornell:
Can Shadows Reveal Biometric Informationƒ. WACV 2023: 869-879 - [d1]Yang Liu, Gregory W. Wornell, William T. Freeman, Frédo Durand:
Privacy Dual Imaging. Zenodo, 2023
- [i92]Huiwen Chang, Han Zhang, Jarred Barber, Aaron Maschinot, José Lezama, Lu Jiang, Ming-Hsuan Yang, Kevin Murphy, William T. Freeman, Michael Rubinstein, Yuanzhen Li, Dilip Krishnan:
Muse: Text-To-Image Generation via Masked Generative Transformers. CoRR abs/2301.00704 (2023) - [i91]Berthy T. Feng, Jamie Smith, Michael Rubinstein, Huiwen Chang, Katherine L. Bouman, William T. Freeman:
Score-Based Diffusion Models as Principled Priors for Inverse Imaging. CoRR abs/2304.11751 (2023) - [i90]Guangxuan Xiao, Tianwei Yin, William T. Freeman, Frédo Durand, Song Han:
FastComposer: Tuning-Free Multi-Subject Image Generation with Localized Attention. CoRR abs/2305.10431 (2023) - [i89]Prafull Sharma, Julien Philip, Michaël Gharbi, William T. Freeman, Frédo Durand, Valentin Deschaintre:
Materialistic: Selecting Similar Materials in Images. CoRR abs/2305.13291 (2023) - [i88]Miriam Cha, Gregory Angelides, Mark Hamilton, Andy Soszynski, Brandon Swenson, Nathaniel Maidel, Phillip Isola, Taylor Perron, Bill Freeman:
MultiEarth 2023 - Multimodal Learning for Earth and Environment Workshop and Challenge. CoRR abs/2306.04738 (2023) - [i87]Manel Baradad, Yuanzhen Li, Forrester Cole, Michael Rubinstein, Antonio Torralba, William T. Freeman, Varun Jampani:
Background Prompting for Improved Object Depth. CoRR abs/2306.05428 (2023) - [i86]Ayush Tewari, Tianwei Yin, George Cazenavette, Semon Rezchikov, Joshua B. Tenenbaum, Frédo Durand, William T. Freeman, Vincent Sitzmann:
Diffusion with Forward Models: Solving Stochastic Inverse Problems Without Direct Supervision. CoRR abs/2306.11719 (2023) - [i85]Brandon Y. Feng, Hadi Alzayer, Michael Rubinstein, William T. Freeman, Jia-Bin Huang:
3D Motion Magnification: Visualizing Subtle Motions with Time Varying Radiance Fields. CoRR abs/2308.03757 (2023) - [i84]Brendan Walsh, Mark Hamilton, Greg Newby, Xi Wang, Serena Ruan, Sheng Zhao, Lei He, Shaofei Zhang, Eric Dettinger, William T. Freeman, Markus Weimer:
Large-Scale Automatic Audiobook Creation. CoRR abs/2309.03926 (2023) - [i83]Tianwei Yin, Michaël Gharbi, Richard Zhang, Eli Shechtman, Frédo Durand, William T. Freeman, Taesung Park:
One-step Diffusion with Distribution Matching Distillation. CoRR abs/2311.18828 (2023) - [i82]Prafull Sharma, Varun Jampani, Yuanzhen Li, Xuhui Jia, Dmitry Lagun, Frédo Durand, William T. Freeman, Mark J. Matthews:
Alchemist: Parametric Control of Material Properties with Diffusion Models. CoRR abs/2312.02970 (2023) - [i81]Hong-Xing Yu, Haoyi Duan, Junhwa Hur, Kyle Sargent, Michael Rubinstein, William T. Freeman, Forrester Cole, Deqing Sun, Noah Snavely, Jiajun Wu, Charles Herrmann:
WonderJourney: Going from Anywhere to Everywhere. CoRR abs/2312.03884 (2023) - [i80]Nishad Gothoskar, Matin Ghavami, Eric Li, Aidan Curtis, Michael Noseworthy, Karen Chung, Brian Patton, William T. Freeman, Joshua B. Tenenbaum, Mirko Klukas, Vikash K. Mansinghka:
Bayes3D: fast learning and inference in structured generative models of 3D objects and scenes. CoRR abs/2312.08715 (2023) - 2022
- [c179]Huiwen Chang, Han Zhang, Lu Jiang, Ce Liu, William T. Freeman:
MaskGIT: Masked Generative Image Transformer. CVPR 2022: 11305-11315 - [c178]Zhoutong Zhang, Forrester Cole, Zhengqi Li, Michael Rubinstein, Noah Snavely, William T. Freeman:
Structure and Motion from Casual Videos. ECCV (33) 2022: 20-37 - [c177]Deqing Sun, Charles Herrmann, Fitsum A. Reda, Michael Rubinstein, David J. Fleet, William T. Freeman:
Disentangling Architecture and Training for Optical Flow. ECCV (22) 2022: 165-182 - [c176]Mark Hamilton, Scott M. Lundberg, Stephanie Fu, Lei Zhang, William T. Freeman:
Axiomatic Explanations for Visual Search, Retrieval, and Similarity Learning. ICLR 2022 - [c175]Mark Hamilton, Zhoutong Zhang, Bharath Hariharan, Noah Snavely, William T. Freeman:
Unsupervised Semantic Segmentation by Distilling Feature Correspondences. ICLR 2022 - [c174]Erika Lu, Forrester Cole, Weidi Xie, Tali Dekel, Bill Freeman, Andrew Zisserman, Michael Rubinstein:
Associating Objects and Their Effects in Video through Coordination Games. NeurIPS 2022 - [i79]Huiwen Chang, Han Zhang, Lu Jiang, Ce Liu, William T. Freeman:
MaskGIT: Masked Generative Image Transformer. CoRR abs/2202.04200 (2022) - [i78]Mark Hamilton, Zhoutong Zhang, Bharath Hariharan, Noah Snavely, William T. Freeman:
Unsupervised Semantic Segmentation by Distilling Feature Correspondences. CoRR abs/2203.08414 (2022) - [i77]Deqing Sun, Charles Herrmann, Fitsum A. Reda, Michael Rubinstein, David J. Fleet, William T. Freeman:
What Makes RAFT Better Than PWC-Net? CoRR abs/2203.10712 (2022) - [i76]Miriam Cha, Kuan Wei Huang, Morgan Schmidt, Gregory Angelides, Mark Hamilton, Sam Goldberg, Armando Cabrera, Phillip Isola, Taylor Perron, Bill Freeman, Yen-Chen Lin, Brandon Swenson, Jean E. Piou:
MultiEarth 2022 - Multimodal Learning for Earth and Environment Workshop and Challenge. CoRR abs/2204.07649 (2022) - [i75]Vijay Gadepally, Gregory Angelides, Andrei Barbu, Andrew Bowne, Laura J. Brattain, Tamara Broderick, Armando Cabrera, Glenn Carl, Ronisha Carter, Miriam Cha, Emilie Cowen, Jesse Cummings, Bill Freeman, James R. Glass, Sam Goldberg, Mark Hamilton, Thomas Heldt, Kuan Wei Huang, Phillip Isola, Boris Katz, Jamie Koerner, Yen-Chen Lin, David Mayo, Kyle McAlpin, Taylor Perron, Jean E. Piou, Hrishikesh M. Rao, Hayley Reynolds, Kaira Samuel, Siddharth Samsi, Morgan Schmidt, Leslie Shing, Olga Simek, Brandon Swenson, Vivienne Sze, Jonathan Taylor, Paul Tylkin, Mark Veillette, Matthew L. Weiss, Allan B. Wollaber, Sophia Yuditskaya, Jeremy Kepner:
Developing a Series of AI Challenges for the United States Department of the Air Force. CoRR abs/2207.07033 (2022) - [i74]Prafull Sharma, Ayush Tewari, Yilun Du, Sergey Zakharov, Rares Ambrus, Adrien Gaidon, William T. Freeman, Frédo Durand, Joshua B. Tenenbaum, Vincent Sitzmann:
Seeing 3D Objects in a Single Image via Self-Supervised Static-Dynamic Disentanglement. CoRR abs/2207.11232 (2022) - [i73]Safa C. Medin, Amir Weiss, Frédo Durand, William T. Freeman, Gregory W. Wornell:
Can Shadows Reveal Biometric Information? CoRR abs/2209.10077 (2022) - [i72]Arjun R. Akula, Brendan Driscoll, Pradyumna Narayana, Soravit Changpinyo, Zhiwei Jia, Suyash Damle, Garima Pruthi, Sugato Basu, Leonidas J. Guibas, William T. Freeman, Yuanzhen Li, Varun Jampani:
MetaCLUE: Towards Comprehensive Visual Metaphors Research. CoRR abs/2212.09898 (2022) - 2021
- [j70]Zhengqi Li, Tali Dekel, Forrester Cole, Richard Tucker, Noah Snavely, Ce Liu, William T. Freeman:
MannequinChallenge: Learning the Depths of Moving People by Watching Frozen People. IEEE Trans. Pattern Anal. Mach. Intell. 43(12): 4229-4241 (2021) - [j69]Sheila W. Seidel, John Murray-Bruce, Yanting Ma, Christopher C. Yu, William T. Freeman, Vivek K. Goyal:
Two-Dimensional Non-Line-of-Sight Scene Estimation From a Single Edge Occluder. IEEE Trans. Computational Imaging 7: 58-72 (2021) - [j68]Zhoutong Zhang, Forrester Cole, Richard Tucker, William T. Freeman, Tali Dekel:
Consistent depth of moving objects in video. ACM Trans. Graph. 40(4): 148:1-148:12 (2021) - [j67]Yuanming Hu, Jiafeng Liu, Xuanda Yang, Mingkuan Xu, Ye Kuang, Weiwei Xu, Qiang Dai, William T. Freeman, Frédo Durand:
QuanTaichi: a compiler for quantized simulations. ACM Trans. Graph. 40(4): 182:1-182:16 (2021) - [j66]Xiuming Zhang, Pratul P. Srinivasan, Boyang Deng, Paul E. Debevec, William T. Freeman, Jonathan T. Barron:
NeRFactor: neural factorization of shape and reflectance under an unknown illumination. ACM Trans. Graph. 40(6): 237:1-237:18 (2021) - [c173]Erika Lu, Forrester Cole, Tali Dekel, Andrew Zisserman, William T. Freeman, Michael Rubinstein:
Omnimatte: Associating Objects and Their Effects in Video. CVPR 2021: 4507-4515 - [c172]Deqing Sun, Daniel Vlasic, Charles Herrmann, Varun Jampani, Michael Krainin, Huiwen Chang, Ramin Zabih, William T. Freeman, Ce Liu:
AutoFlow: Learning a Better Training Set for Optical Flow. CVPR 2021: 10093-10102 - [c171]Andrei Zanfir, Eduard Gabriel Bazavan, Mihai Zanfir, William T. Freeman, Rahul Sukthankar, Cristian Sminchisescu:
Neural Descent for Visual 3D Human Pose and Shape. CVPR 2021: 14484-14493 - [c170]Gengshan Yang, Deqing Sun, Varun Jampani, Daniel Vlasic, Forrester Cole, Huiwen Chang, Deva Ramanan, William T. Freeman, Ce Liu:
LASR: Learning Articulated Shape Reconstruction From a Monocular Video. CVPR 2021: 15980-15989 - [c169]Oran Lang, Yossi Gandelsman, Michal Yarom, Yoav Wald, Gal Elidan, Avinatan Hassidim, William T. Freeman, Phillip Isola, Amir Globerson, Michal Irani, Inbar Mosseri:
Explaining in Style: Training a GAN to explain a classifier in StyleSpace. ICCV 2021: 673-682 - [c168]Prafull Sharma, Miika Aittala, Yoav Y. Schechner, Antonio Torralba, Gregory W. Wornell, William T. Freeman, Frédo Durand:
What You Can Learn by Staring at a Blank Wall. ICCV 2021: 2310-2319 - [c167]Varun Jampani, Huiwen Chang, Kyle Sargent, Abhishek Kar, Richard Tucker, Michael Krainin, Dominik Kaeser, William T. Freeman, David Salesin, Brian Curless, Ce Liu:
SLIDE: Single Image 3D Photography with Soft Layering and Depth-aware Inpainting. ICCV 2021: 12498-12507 - [c166]Mihai Zanfir, Andrei Zanfir, Eduard Gabriel Bazavan, William T. Freeman, Rahul Sukthankar, Cristian Sminchisescu:
THUNDR: Transformer-based 3D HUmaN Reconstruction with Markers. ICCV 2021: 12951-12960 - [c165]Laura E. Brandt, William T. Freeman:
Toward Automatic Interpretation of 3D Plots. ICDAR (2) 2021: 35-50 - [c164]Vincent Sitzmann, Semon Rezchikov, Bill Freeman, Josh Tenenbaum, Frédo Durand:
Light Field Networks: Neural Scene Representations with Single-Evaluation Rendering. NeurIPS 2021: 19313-19325 - [i71]Mark Hamilton, Scott M. Lundberg, Lei Zhang, Stephanie Fu, William T. Freeman:
Model-Agnostic Explainability for Visual Search. CoRR abs/2103.00370 (2021) - [i70]Oran Lang, Yossi Gandelsman, Michal Yarom, Yoav Wald, Gal Elidan, Avinatan Hassidim, William T. Freeman, Phillip Isola, Amir Globerson, Michal Irani, Inbar Mosseri:
Explaining in Style: Training a GAN to explain a classifier in StyleSpace. CoRR abs/2104.13369 (2021) - [i69]Deqing Sun, Daniel Vlasic, Charles Herrmann, Varun Jampani, Michael Krainin, Huiwen Chang, Ramin Zabih, William T. Freeman, Ce Liu:
AutoFlow: Learning a Better Training Set for Optical Flow. CoRR abs/2104.14544 (2021) - [i68]Gengshan Yang, Deqing Sun, Varun Jampani, Daniel Vlasic, Forrester Cole, Huiwen Chang, Deva Ramanan, William T. Freeman, Ce Liu:
LASR: Learning Articulated Shape Reconstruction from a Monocular Video. CoRR abs/2105.02976 (2021) - [i67]Erika Lu, Forrester Cole, Tali Dekel, Andrew Zisserman, William T. Freeman, Michael Rubinstein:
Omnimatte: Associating Objects and Their Effects in Video. CoRR abs/2105.06993 (2021) - [i66]Xiuming Zhang, Pratul P. Srinivasan, Boyang Deng, Paul E. Debevec, William T. Freeman, Jonathan T. Barron:
NeRFactor: Neural Factorization of Shape and Reflectance Under an Unknown Illumination. CoRR abs/2106.01970 (2021) - [i65]Vincent Sitzmann, Semon Rezchikov, William T. Freeman, Joshua B. Tenenbaum, Frédo Durand:
Light Field Networks: Neural Scene Representations with Single-Evaluation Rendering. CoRR abs/2106.02634 (2021) - [i64]Laura E. Brandt, William T. Freeman:
Toward Automatic Interpretation of 3D Plots. CoRR abs/2106.07627 (2021) - [i63]Mihai Zanfir, Andrei Zanfir, Eduard Gabriel Bazavan, William T. Freeman, Rahul Sukthankar, Cristian Sminchisescu:
THUNDR: Transformer-based 3D HUmaN Reconstruction with Markers. CoRR abs/2106.09336 (2021) - [i62]Zhoutong Zhang, Forrester Cole, Richard Tucker, William T. Freeman, Tali Dekel:
Consistent Depth of Moving Objects in Video. CoRR abs/2108.01166 (2021) - [i61]Prafull Sharma, Miika Aittala, Yoav Y. Schechner, Antonio Torralba, Gregory W. Wornell, William T. Freeman, Frédo Durand:
What You Can Learn by Staring at a Blank Wall. CoRR abs/2108.13027 (2021) - [i60]Varun Jampani, Huiwen Chang, Kyle Sargent, Abhishek Kar, Richard Tucker, Michael Krainin, Dominik Kaeser, William T. Freeman, David Salesin, Brian Curless, Ce Liu:
SLIDE: Single Image 3D Photography with Soft Layering and Depth-aware Inpainting. CoRR abs/2109.01068 (2021) - [i59]Eduard Gabriel Bazavan, Andrei Zanfir, Mihai Zanfir, William T. Freeman, Rahul Sukthankar, Cristian Sminchisescu:
HSPACE: Synthetic Parametric Humans Animated in Complex Environments. CoRR abs/2112.12867 (2021) - 2020
- [j65]Erika Lu, Forrester Cole, Tali Dekel, Weidi Xie, Andrew Zisserman, David Salesin, William T. Freeman, Michael Rubinstein:
Layered neural rendering for retiming people in video. ACM Trans. Graph. 39(6): 256:1-256:14 (2020) - [c163]Mark Hamilton, Nick Gonsalves, Christina Lee, Anand Raman, Brendan Walsh, Siddhartha Prasad, Dalitso Banda, Lucy Zhang, Lei Zhang, William T. Freeman:
Large-Scale Intelligent Microservices. IEEE BigData 2020: 298-309 - [c162]Yikai Li, Jiayuan Mao, Xiuming Zhang, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Perspective Plane Program Induction From a Single Image. CVPR 2020: 4433-4442 - [c161]Hongyi Xu, Eduard Gabriel Bazavan, Andrei Zanfir, William T. Freeman, Rahul Sukthankar, Cristian Sminchisescu:
GHUM & GHUML: Generative 3D Human Shape and Articulated Pose Models. CVPR 2020: 6183-6192 - [c160]Assaf Shocher, Yossi Gandelsman, Inbar Mosseri, Michal Yarom, Michal Irani, William T. Freeman, Tali Dekel:
Semantic Pyramid for Image Generation. CVPR 2020: 7455-7464 - [c159]Sagie Benaim, Ariel Ephrat, Oran Lang, Inbar Mosseri, William T. Freeman, Michael Rubinstein, Michal Irani, Tali Dekel:
SpeedNet: Learning the Speediness in Videos. CVPR 2020: 9919-9928 - [c158]Andrei Zanfir, Eduard Gabriel Bazavan, Hongyi Xu, William T. Freeman, Rahul Sukthankar, Cristian Sminchisescu:
Weakly Supervised 3D Human Pose and Shape Reconstruction with Normalizing Flows. ECCV (6) 2020: 465-481 - [c157]Zhoutong Zhang, Yunyun Wang, Chuang Gan, Jiajun Wu, Joshua B. Tenenbaum, Antonio Torralba, William T. Freeman:
Deep Audio Priors Emerge From Harmonic Convolutional Networks. ICLR 2020 - [c156]Mark Hamilton, Stephanie Fu, Mindren Lu, Johnny Bui, Darius Bopp, Zhenbang Chen, Felix Tran, Margaret Wang, Marina Rogers, Lei Zhang, Chris Hoder, William T. Freeman:
MosAIc: Finding Artistic Connections across Culture with Conditional Image Retrieval. NeurIPS (Competition and Demos) 2020: 133-155 - [c155]Yikai Li, Jiayuan Mao, Xiuming Zhang, Bill Freeman, Josh Tenenbaum, Noah Snavely, Jiajun Wu:
Multi-Plane Program Induction with 3D Box Priors. NeurIPS 2020 - [i58]Assaf Shocher, Yossi Gandelsman, Inbar Mosseri, Michal Yarom, Michal Irani, William T. Freeman, Tali Dekel:
Semantic Pyramid for Image Generation. CoRR abs/2003.06221 (2020) - [i57]Andrei Zanfir, Eduard Gabriel Bazavan, Hongyi Xu, Bill Freeman, Rahul Sukthankar, Cristian Sminchisescu:
Weakly Supervised 3D Human Pose and Shape Reconstruction with Normalizing Flows. CoRR abs/2003.10350 (2020) - [i56]Sagie Benaim, Ariel Ephrat, Oran Lang, Inbar Mosseri, William T. Freeman, Michael Rubinstein, Michal Irani, Tali Dekel:
SpeedNet: Learning the Speediness in Videos. CoRR abs/2004.06130 (2020) - [i55]Sheila W. Seidel, John Murray-Bruce, Yanting Ma, Christopher C. Yu, William T. Freeman, Vivek K. Goyal:
Two-Dimensional Non-Line-of-Sight Scene Estimation from a Single Edge Occluder. CoRR abs/2006.09241 (2020) - [i54]Yikai Li, Jiayuan Mao, Xiuming Zhang, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Perspective Plane Program Induction from a Single Image. CoRR abs/2006.14708 (2020) - [i53]Mark Hamilton, Evan Shelhamer, William T. Freeman:
It Is Likely That Your Loss Should be a Likelihood. CoRR abs/2007.06059 (2020) - [i52]Mark Hamilton, Stephanie Fu, William T. Freeman, Mindren Lu:
Conditional Image Retrieval. CoRR abs/2007.07177 (2020) - [i51]Xiuming Zhang, Sean Ryan Fanello, Yun-Ta Tsai, Tiancheng Sun, Tianfan Xue, Rohit Pandey, Sergio Orts-Escolano, Philip Davidson, Christoph Rhemann, Paul E. Debevec, Jonathan T. Barron, Ravi Ramamoorthi, William T. Freeman:
Neural Light Transport for Relighting and View Synthesis. CoRR abs/2008.03806 (2020) - [i50]Andrei Zanfir, Eduard Gabriel Bazavan, Mihai Zanfir, William T. Freeman, Rahul Sukthankar, Cristian Sminchisescu:
Neural Descent for Visual 3D Human Pose and Shape. CoRR abs/2008.06910 (2020) - [i49]Erika Lu, Forrester Cole, Tali Dekel, Weidi Xie, Andrew Zisserman, David Salesin, William T. Freeman, Michael Rubinstein:
Layered Neural Rendering for Retiming People in Video. CoRR abs/2009.07833 (2020) - [i48]Mark Hamilton, Nick Gonsalves, Christina Lee, Anand Raman, Brendan Walsh, Siddhartha Prasad, Dalitso Banda, Lucy Zhang, Lei Zhang, William T. Freeman:
Large-Scale Intelligent Microservices. CoRR abs/2009.08044 (2020) - [i47]Yikai Li, Jiayuan Mao, Xiuming Zhang, William T. Freeman, Joshua B. Tenenbaum, Noah Snavely, Jiajun Wu:
Multi-Plane Program Induction with 3D Box Priors. CoRR abs/2011.10007 (2020)
2010 – 2019
- 2019
- [j64]Tianfan Xue, Baian Chen, Jiajun Wu, Donglai Wei, William T. Freeman:
Video Enhancement with Task-Oriented Flow. Int. J. Comput. Vis. 127(8): 1106-1125 (2019) - [j63]Tianfan Xue, Jiajun Wu, Katherine L. Bouman, William T. Freeman:
Visual Dynamics: Stochastic Future Generation via Layered Cross Convolutional Networks. IEEE Trans. Pattern Anal. Mach. Intell. 41(9): 2236-2250 (2019) - [j62]Adrian V. Dalca, Katherine L. Bouman, William T. Freeman, Natalia S. Rost, Mert R. Sabuncu, Polina Golland:
Medical Image Imputation From Image Collections. IEEE Trans. Medical Imaging 38(2): 504-514 (2019) - [c154]Zhengqi Li, Tali Dekel, Forrester Cole, Richard Tucker, Noah Snavely, Ce Liu, William T. Freeman:
Learning the Depths of Moving People by Watching Frozen People. CVPR 2019: 4521-4530 - [c153]Tae-Hyun Oh, Tali Dekel, Changil Kim, Inbar Mosseri, William T. Freeman, Michael Rubinstein, Wojciech Matusik:
Speech2Face: Learning the Face Behind a Voice. CVPR 2019: 7539-7548 - [c152]Adam B. Yedidia, Manel Baradad, Christos Thrampoulidis, William T. Freeman, Gregory W. Wornell:
Using Unknown Occluders to Recover Hidden Scenes. CVPR 2019: 12231-12239 - [c151]Sheila W. Seidel, Yanting Ma, John Murray-Bruce, Charles Saunders, William T. Freeman, Christopher C. Yu, Vivek K. Goyal:
Corner Occluder Computational Periscopy: Estimating a Hidden Scene from a Single Photograph. ICCP 2019: 1-9 - [c150]Guha Balakrishnan, Adrian V. Dalca, Amy Zhao, John V. Guttag, Frédo Durand, William T. Freeman:
Visual Deprojection: Probabilistic Recovery of Collapsed Dimensions. ICCV 2019: 171-180 - [c149]Xiuming Zhang, Jiayuan Mao, Yikai Li, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Program-Guided Image Manipulators. ICCV 2019: 4029-4038 - [c148]Kyle Genova, Forrester Cole, Daniel Vlasic, Aaron Sarna, William T. Freeman, Thomas A. Funkhouser:
Learning Shape Templates With Structured Implicit Functions. ICCV 2019: 7153-7163 - [c147]Dilip Krishnan, Piotr Teterwak, Aaron Sarna, Aaron Maschinot, Ce Liu, David Belanger, William T. Freeman:
Boundless: Generative Adversarial Networks for Image Extension. ICCV 2019: 10520-10529 - [c146]David Bau, Jun-Yan Zhu, Hendrik Strobelt, Bolei Zhou, Joshua B. Tenenbaum, William T. Freeman, Antonio Torralba:
GAN Dissection: Visualizing and Understanding Generative Adversarial Networks. ICLR (Poster) 2019 - [c145]David Bau, Jun-Yan Zhu, Hendrik Strobelt, Bolei Zhou, Joshua B. Tenenbaum, William T. Freeman, Antonio Torralba:
Visualizing and Understanding GANs. DGS@ICLR 2019 - [c144]Michael Janner, Sergey Levine, William T. Freeman, Joshua B. Tenenbaum, Chelsea Finn, Jiajun Wu:
Reasoning About Physical Interactions with Object-Oriented Prediction and Planning. ICLR (Poster) 2019 - [c143]Yunchao Liu, Zheng Wu, Daniel Ritchie, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Learning to Describe Scenes with Programs. ICLR (Poster) 2019 - [c142]Yonglong Tian, Andrew Luo, Xingyuan Sun, Kevin Ellis, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Learning to Infer and Execute 3D Shape Programs. ICLR (Poster) 2019 - [c141]Zhenjia Xu, Zhijian Liu, Chen Sun, Kevin Murphy, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Unsupervised Discovery of Parts, Structure, and Dynamics. ICLR (Poster) 2019 - [c140]Yuanming Hu, Jiancheng Liu, Andrew Spielberg, Joshua B. Tenenbaum, William T. Freeman, Jiajun Wu, Daniela Rus, Wojciech Matusik:
ChainQueen: A Real-Time Differentiable Physical Simulator for Soft Robotics. ICRA 2019: 6265-6271 - [c139]Miika Aittala, Prafull Sharma, Lukas Murmann, Adam B. Yedidia, Gregory W. Wornell, Bill Freeman, Frédo Durand:
Computational Mirrors: Blind Inverse Light Transport by Deep Matrix Factorization. NeurIPS 2019: 14311-14321 - [i46]Yonglong Tian, Andrew Luo, Xingyuan Sun, Kevin Ellis, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Learning to Infer and Execute 3D Shape Programs. CoRR abs/1901.02875 (2019) - [i45]David Bau, Jun-Yan Zhu, Hendrik Strobelt, Bolei Zhou, Joshua B. Tenenbaum, William T. Freeman, Antonio Torralba:
Visualizing and Understanding Generative Adversarial Networks (Extended Abstract). CoRR abs/1901.09887 (2019) - [i44]Zhenjia Xu, Zhijian Liu, Chen Sun, Kevin Murphy, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Unsupervised Discovery of Parts, Structure, and Dynamics. CoRR abs/1903.05136 (2019) - [i43]Kyle Genova, Forrester Cole, Daniel Vlasic, Aaron Sarna, William T. Freeman, Thomas A. Funkhouser:
Learning Shape Templates with Structured Implicit Functions. CoRR abs/1904.06447 (2019) - [i42]Zhengqi Li, Tali Dekel, Forrester Cole, Richard Tucker, Noah Snavely, Ce Liu, William T. Freeman:
Learning the Depths of Moving People by Watching Frozen People. CoRR abs/1904.11111 (2019) - [i41]Tae-Hyun Oh, Tali Dekel, Changil Kim, Inbar Mosseri, William T. Freeman, Michael Rubinstein, Wojciech Matusik:
Speech2Face: Learning the Face Behind a Voice. CoRR abs/1905.09773 (2019) - [i40]Piotr Teterwak, Aaron Sarna, Dilip Krishnan, Aaron Maschinot, David Belanger, Ce Liu, William T. Freeman:
Boundless: Generative Adversarial Networks for Image Extension. CoRR abs/1908.07007 (2019) - [i39]Guha Balakrishnan, Adrian V. Dalca, Amy Zhao, John V. Guttag, Frédo Durand, William T. Freeman:
Visual Deprojection: Probabilistic Recovery of Collapsed Dimensions. CoRR abs/1909.00475 (2019) - [i38]Jiayuan Mao, Xiuming Zhang, Yikai Li, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Program-Guided Image Manipulators. CoRR abs/1909.02116 (2019) - [i37]Miika Aittala, Prafull Sharma, Lukas Murmann, Adam B. Yedidia, Gregory W. Wornell, William T. Freeman, Frédo Durand:
Computational Mirrors: Blind Inverse Light Transport by Deep Matrix Factorization. CoRR abs/1912.02314 (2019) - 2018
- [j61]Jiajun Wu, Tianfan Xue, Joseph J. Lim, Yuandong Tian, Joshua B. Tenenbaum, Antonio Torralba, William T. Freeman:
3D Interpreter Networks for Viewer-Centered Wireframe Modeling. Int. J. Comput. Vis. 126(9): 1009-1026 (2018) - [j60]Andrew Owens, Jiajun Wu, Josh H. McDermott, William T. Freeman, Antonio Torralba:
Learning Sight from Sound: Ambient Sound Provides Supervision for Visual Learning. Int. J. Comput. Vis. 126(10): 1120-1137 (2018) - [j59]Shaul Oron, Tali Dekel, Tianfan Xue, William T. Freeman, Shai Avidan:
Best-Buddies Similarity - Robust Template Matching Using Mutual Nearest Neighbors. IEEE Trans. Pattern Anal. Mach. Intell. 40(8): 1799-1813 (2018) - [j58]Christos Thrampoulidis, Gal Shulkind, Feihu Xu, William T. Freeman, Jeffrey H. Shapiro, Antonio Torralba, Franco N. C. Wong, Gregory W. Wornell:
Exploiting Occlusion in Non-Line-of-Sight Active Imaging. IEEE Trans. Computational Imaging 4(3): 419-431 (2018) - [j57]Katherine L. Bouman, Michael D. Johnson, Adrian V. Dalca, Andrew A. Chael, Freek Roelofs, Sheperd S. Doeleman, William T. Freeman:
Reconstructing Video of Time-Varying Sources From Radio Interferometric Measurements. IEEE Trans. Computational Imaging 4(4): 512-527 (2018) - [j56]Ariel Ephrat, Inbar Mosseri, Oran Lang, Tali Dekel, Kevin Wilson, Avinatan Hassidim, William T. Freeman, Michael Rubinstein:
Looking to listen at the cocktail party: a speaker-independent audio-visual model for speech separation. ACM Trans. Graph. 37(4): 112 (2018) - [c138]Lex Fridman, Bryan Reimer, Bruce Mehler, William T. Freeman:
Cognitive Load Estimation in the Wild. CHI 2018: 652 - [c137]Zhoutong Zhang, Jiajun Wu, Qiujia Li, Zhengjia Huang, Joshua B. Tenenbaum, William T. Freeman:
Inverting Audio-Visual Simulation for Shape and Material Perception. CVPR Workshops 2018: 2536-2538 - [c136]Xingyuan Sun, Jiajun Wu, Xiuming Zhang, Zhoutong Zhang, Chengkai Zhang, Tianfan Xue, Joshua B. Tenenbaum, William T. Freeman:
Pix3D: Dataset and Methods for Single-Image 3D Shape Modeling. CVPR 2018: 2974-2983 - [c135]Tali Dekel, Chuang Gan, Dilip Krishnan, Ce Liu, William T. Freeman:
Sparse, Smart Contours to Represent and Edit Images. CVPR 2018: 3511-3520 - [c134]Manel Baradad, Vickie Ye, Adam B. Yedidia, Frédo Durand, William T. Freeman, Gregory W. Wornell, Antonio Torralba:
Inferring Light Fields From Shadows. CVPR 2018: 6267-6275 - [c133]Donglai Wei, Joseph J. Lim, Andrew Zisserman, William T. Freeman:
Learning and Using the Arrow of Time. CVPR 2018: 8052-8060 - [c132]Kyle Genova, Forrester Cole, Aaron Maschinot, Aaron Sarna, Daniel Vlasic, William T. Freeman:
Unsupervised Training for 3D Morphable Model Regression. CVPR 2018: 8377-8386 - [c131]Zhijian Liu, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Physical Primitive Decomposition. ECCV (12) 2018: 3-20 - [c130]Tae-Hyun Oh, Ronnachai Jaroensri, Changil Kim, Mohamed A. Elgharib, Frédo Durand, William T. Freeman, Wojciech Matusik:
Learning-Based Video Motion Magnification. ECCV (4) 2018: 663-679 - [c129]Jiajun Wu, Chengkai Zhang, Xiuming Zhang, Zhoutong Zhang, William T. Freeman, Joshua B. Tenenbaum:
Learning Shape Priors for Single-View 3D Completion And Reconstruction. ECCV (11) 2018: 673-691 - [c128]Tianfan Xue, Jiajun Wu, Zhoutong Zhang, Chengkai Zhang, Joshua B. Tenenbaum, William T. Freeman:
Seeing Tree Structure from Vibration. ECCV (9) 2018: 762-779 - [c127]Shaoxiong Wang, Jiajun Wu, Xingyuan Sun, Wenzhen Yuan, William T. Freeman, Joshua B. Tenenbaum, Edward H. Adelson:
3D Shape Perception from Monocular Vision, Touch, and Shape Priors. IROS 2018: 1606-1613 - [c126]Felix Naser, Igor Gilitschenski, Guy Rosman, Alexander Amini, Frédo Durand, Antonio Torralba, Gregory W. Wornell, William T. Freeman, Sertac Karaman, Daniela Rus:
ShadowCam: Real-Time Detection of Moving Obstacles Behind A Corner For Autonomous Vehicles. ITSC 2018: 560-567 - [c125]Jun-Yan Zhu, Zhoutong Zhang, Chengkai Zhang, Jiajun Wu, Antonio Torralba, Josh Tenenbaum, Bill Freeman:
Visual Object Networks: Image Generation with Disentangled 3D Representations. NeurIPS 2018: 118-129 - [c124]Yilun Du, Zhijian Liu, Hector Basevi, Ales Leonardis, Bill Freeman, Josh Tenenbaum, Jiajun Wu:
Learning to Exploit Stability for 3D Scene Parsing. NeurIPS 2018: 1733-1743 - [c123]Shunyu Yao, Tzu-Ming Harry Hsu, Jun-Yan Zhu, Jiajun Wu, Antonio Torralba, Bill Freeman, Josh Tenenbaum:
3D-Aware Scene Manipulation via Inverse Graphics. NeurIPS 2018: 1891-1902 - [c122]Xiuming Zhang, Zhoutong Zhang, Chengkai Zhang, Josh Tenenbaum, Bill Freeman, Jiajun Wu:
Learning to Reconstruct Shapes from Unseen Classes. NeurIPS 2018: 2263-2274 - [c121]Abhishek Kumar, Prasanna Sattigeri, Kahini Wadhawan, Leonid Karlinsky, Rogério Schmidt Feris, Bill Freeman, Gregory W. Wornell:
Co-regularized Alignment for Unsupervised Domain Adaptation. NeurIPS 2018: 9367-9378 - [c120]Xiuming Zhang, Tali Dekel, Tianfan Xue, Andrew Owens, Qiurui He, Jiajun Wu, Stefanie Mueller, William T. Freeman:
MoSculp: Interactive Visualization of Shape and Time. UIST 2018: 275-285 - [i36]Jiajun Wu, Tianfan Xue, Joseph J. Lim, Yuandong Tian, Joshua B. Tenenbaum, Antonio Torralba, William T. Freeman:
3D Interpreter Networks for Viewer-Centered Wireframe Modeling. CoRR abs/1804.00782 (2018) - [i35]Tae-Hyun Oh, Ronnachai Jaroensri, Changil Kim, Mohamed A. Elgharib, Frédo Durand, William T. Freeman, Wojciech Matusik:
Learning-based Video Motion Magnification. CoRR abs/1804.02684 (2018) - [i34]Ariel Ephrat, Inbar Mosseri, Oran Lang, Tali Dekel, Kevin Wilson, Avinatan Hassidim, William T. Freeman, Michael Rubinstein:
Looking to Listen at the Cocktail Party: A Speaker-Independent Audio-Visual Model for Speech Separation. CoRR abs/1804.03619 (2018) - [i33]Xingyuan Sun, Jiajun Wu, Xiuming Zhang, Zhoutong Zhang, Chengkai Zhang, Tianfan Xue, Joshua B. Tenenbaum, William T. Freeman:
Pix3D: Dataset and Methods for Single-Image 3D Shape Modeling. CoRR abs/1804.04610 (2018) - [i32]Kyle Genova, Forrester Cole, Aaron Maschinot, Aaron Sarna, Daniel Vlasic, William T. Freeman:
Unsupervised Training for 3D Morphable Model Regression. CoRR abs/1806.06098 (2018) - [i31]Tianfan Xue, Jiajun Wu, Katherine L. Bouman, William T. Freeman:
Visual Dynamics: Stochastic Future Generation via Layered Cross Convolutional Networks. CoRR abs/1807.09245 (2018) - [i30]Shaoxiong Wang, Jiajun Wu, Xingyuan Sun, Wenzhen Yuan, William T. Freeman, Joshua B. Tenenbaum, Edward H. Adelson:
3D Shape Perception from Monocular Vision, Touch, and Shape Priors. CoRR abs/1808.03247 (2018) - [i29]Adrian V. Dalca, Katherine L. Bouman, William T. Freeman, Natalia S. Rost, Mert R. Sabuncu, Polina Golland:
Medical Image Imputation from Image Collections. CoRR abs/1808.05732 (2018) - [i28]Shunyu Yao, Tzu-Ming Harry Hsu, Jun-Yan Zhu, Jiajun Wu, Antonio Torralba, William T. Freeman, Joshua B. Tenenbaum:
3D-Aware Scene Manipulation via Inverse Graphics. CoRR abs/1808.09351 (2018) - [i27]Tianfan Xue, Jiajun Wu, Zhoutong Zhang, Chengkai Zhang, Joshua B. Tenenbaum, William T. Freeman:
Seeing Tree Structure from Vibration. CoRR abs/1809.05067 (2018) - [i26]Jiajun Wu, Chengkai Zhang, Xiuming Zhang, Zhoutong Zhang, William T. Freeman, Joshua B. Tenenbaum:
Learning Shape Priors for Single-View 3D Completion and Reconstruction. CoRR abs/1809.05068 (2018) - [i25]Zhijian Liu, William T. Freeman, Joshua B. Tenenbaum, Jiajun Wu:
Physical Primitive Decomposition. CoRR abs/1809.05070 (2018) - [i24]Xiuming Zhang, Tali Dekel, Tianfan Xue, Andrew Owens, Qiurui He, Jiajun Wu, Stefanie Mueller, William T. Freeman:
MoSculp: Interactive Visualization of Shape and Time. CoRR abs/1809.05491 (2018) - [i23]Yuanming Hu, Jiancheng Liu, Andrew Spielberg, Joshua B. Tenenbaum, William T. Freeman, Jiajun Wu, Daniela Rus, Wojciech Matusik:
ChainQueen: A Real-Time Differentiable Physical Simulator for Soft Robotics. CoRR abs/1810.01054 (2018) - [i22]Abhishek Kumar, Prasanna Sattigeri, Kahini Wadhawan, Leonid Karlinsky, Rogério Schmidt Feris, William T. Freeman, Gregory W. Wornell:
Co-regularized Alignment for Unsupervised Domain Adaptation. CoRR abs/1811.05443 (2018) - [i21]David Bau, Jun-Yan Zhu, Hendrik Strobelt, Bolei Zhou, Joshua B. Tenenbaum, William T. Freeman, Antonio Torralba:
GAN Dissection: Visualizing and Understanding Generative Adversarial Networks. CoRR abs/1811.10597 (2018) - [i20]Jun-Yan Zhu, Zhoutong Zhang, Chengkai Zhang, Jiajun Wu, Antonio Torralba, Joshua B. Tenenbaum, William T. Freeman:
Visual Object Networks: Image Generation with Disentangled 3D Representation. CoRR abs/1812.02725 (2018) - [i19]Michael Janner, Sergey Levine, William T. Freeman, Joshua B. Tenenbaum, Chelsea Finn, Jiajun Wu:
Reasoning About Physical Interactions with Object-Oriented Prediction and Planning. CoRR abs/1812.10972 (2018) - [i18]Xiuming Zhang, Zhoutong Zhang, Chengkai Zhang, Joshua B. Tenenbaum, William T. Freeman, Jiajun Wu:
Learning to Reconstruct Shapes from Unseen Classes. CoRR abs/1812.11166 (2018) - 2017
- [j55]Neal Wadhwa, Hao-Yu Wu, Abe Davis, Michael Rubinstein, Eugene Shih, Gautham J. Mysore, Justin G. Chen, Oral Büyüköztürk, John V. Guttag, William T. Freeman, Frédo Durand:
Eulerian video magnification and analysis. Commun. ACM 60(1): 87-95 (2017) - [j54]Abe Davis, Katherine L. Bouman, Justin G. Chen, Michael Rubinstein, Oral Büyüköztürk, Frédo Durand, William T. Freeman:
Visual Vibrometry: Estimating Material Properties from Small Motions in Video. IEEE Trans. Pattern Anal. Mach. Intell. 39(4): 732-745 (2017) - [j53]Neal Wadhwa, Justin G. Chen, Jonathan B. Sellon, Donglai Wei, Michael Rubinstein, Roozbeh Ghaffari, Dennis M. Freeman, Oral Büyüköztürk, Pai Wang, Sijie Sun, Sung Hoon Kang, Katia Bertoldi, Frédo Durand, William T. Freeman:
Motion microscopy for visualizing and quantifying small motions. Proc. Natl. Acad. Sci. USA 114(44): 11639-11644 (2017) - [j52]William T. Freeman, Andreas E. Savakis, Yoav Y. Schechner, Noah Snavely, Wolfgang Heidrich:
Guest Editorial Special Issue on Extreme Imaging. IEEE Trans. Computational Imaging 3(3): 382-383 (2017) - [j51]Petr Kellnhofer, Piotr Didyk, Szu-Po Wang, Pitchaya Sitthi-amorn, William T. Freeman, Frédo Durand, Wojciech Matusik:
3DTV at home: eulerian-lagrangian stereo-to-multiview conversion. ACM Trans. Graph. 36(4): 146:1-146:13 (2017) - [c119]Forrester Cole, David Belanger, Dilip Krishnan, Aaron Sarna, Inbar Mosseri, William T. Freeman:
Synthesizing Normalized Faces from Facial Identity Features. CVPR 2017: 3386-3395 - [c118]Tali Dekel, Michael Rubinstein, Ce Liu, William T. Freeman:
On the Effectiveness of Visible Watermarks. CVPR 2017: 6864-6872 - [c117]Zhoutong Zhang, Jiajun Wu, Qiujia Li, Zhengjia Huang, James Traer, Josh H. McDermott, Joshua B. Tenenbaum, William T. Freeman:
Generative Modeling of Audible Shapes for Object Perception. ICCV 2017: 1260-1269 - [c116]Katherine L. Bouman, Vickie Ye, Adam B. Yedidia, Frédo Durand, Gregory W. Wornell, Antonio Torralba, William T. Freeman:
Turning Corners into Cameras: Principles and Methods. ICCV 2017: 2289-2297 - [c115]Adrian V. Dalca, Katherine L. Bouman, William T. Freeman, Natalia S. Rost, Mert R. Sabuncu, Polina Golland:
Population Based Image Imputation. IPMI 2017: 659-671 - [c114]Jiajun Wu, Erika Lu, Pushmeet Kohli, Bill Freeman, Josh Tenenbaum:
Learning to See Physics via Visual De-animation. NIPS 2017: 153-164 - [c113]Jiajun Wu, Yifan Wang, Tianfan Xue, Xingyuan Sun, Bill Freeman, Josh Tenenbaum:
MarrNet: 3D Shape Reconstruction via 2.5D Sketches. NIPS 2017: 540-550 - [c112]Zhoutong Zhang, Qiujia Li, Zhengjia Huang, Jiajun Wu, Josh Tenenbaum, Bill Freeman:
Shape and Material from Sound. NIPS 2017: 1278-1288 - [i17]Forrester Cole, David Belanger, Dilip Krishnan, Aaron Sarna, Inbar Mosseri, William T. Freeman:
Face Synthesis from Facial Identity Features. CoRR abs/1701.04851 (2017) - [i16]Katherine L. Bouman, Michael D. Johnson, Adrian V. Dalca, Andrew A. Chael, Freek Roelofs, Sheperd S. Doeleman, William T. Freeman:
Reconstructing Video from Interferometric Measurements of Time-Varying Sources. CoRR abs/1711.01357 (2017) - [i15]Jiajun Wu, Yifan Wang, Tianfan Xue, Xingyuan Sun, William T. Freeman, Joshua B. Tenenbaum:
MarrNet: 3D Shape Reconstruction via 2.5D Sketches. CoRR abs/1711.03129 (2017) - [i14]Tianfan Xue, Baian Chen, Jiajun Wu, Donglai Wei, William T. Freeman:
Video Enhancement with Task-Oriented Flow. CoRR abs/1711.09078 (2017) - [i13]Andrew Owens, Jiajun Wu, Josh H. McDermott, William T. Freeman, Antonio Torralba:
Learning Sight from Sound: Ambient Sound Provides Supervision for Visual Learning. CoRR abs/1712.07271 (2017) - [i12]Tali Dekel, Chuang Gan, Dilip Krishnan, Ce Liu, William T. Freeman:
Smart, Sparse Contours to Represent and Edit Images. CoRR abs/1712.08232 (2017) - 2016
- [j50]Michael Rubinstein, Ce Liu, William T. Freeman:
Joint Inference in Weakly-Annotated Image Datasets via Dense Correspondence. Int. J. Comput. Vis. 119(1): 23-45 (2016) - [j49]William T. Freeman, Richard Szeliski, Gregory D. Hager:
Guest Editorial: Special Section on CVPR 2013. IEEE Trans. Pattern Anal. Mach. Intell. 38(4): 625-626 (2016) - [c111]Jiajun Wu, Joseph J. Lim, Hongyi Zhang, Joshua B. Tenenbaum, William T. Freeman:
Physics 101: Learning Physical Object Properties from Unlabeled Videos. BMVC 2016 - [c110]Renqiao Zhang, Jiajun Wu, Chengkai Zhang, William T. Freeman, Joshua B. Tenenbaum:
A Comparative Evaluation of Approximate Probabilistic Simulation and Deep Neural Networks as Accounts of Human Physical Scene Understanding. CogSci 2016 - [c109]Katherine L. Bouman, Michael D. Johnson, Daniel Zoran, Vincent L. Fish, Sheperd S. Doeleman, William T. Freeman:
Computational Imaging for VLBI Image Reconstruction. CVPR 2016: 913-922 - [c108]Andrew Owens, Phillip Isola, Josh H. McDermott, Antonio Torralba, Edward H. Adelson, William T. Freeman:
Visually Indicated Sounds. CVPR 2016: 2405-2413 - [c107]Jiajun Wu, Tianfan Xue, Joseph J. Lim, Yuandong Tian, Joshua B. Tenenbaum, Antonio Torralba, William T. Freeman:
Single Image 3D Interpreter Network. ECCV (6) 2016: 365-382 - [c106]Andrew Owens, Jiajun Wu, Josh H. McDermott, William T. Freeman, Antonio Torralba:
Ambient Sound Provides Supervision for Visual Learning. ECCV (1) 2016: 801-816 - [c105]Jiajun Wu, Chengkai Zhang, Tianfan Xue, Bill Freeman, Josh Tenenbaum:
Learning a Probabilistic Latent Space of Object Shapes via 3D Generative-Adversarial Modeling. NIPS 2016: 82-90 - [c104]Tianfan Xue, Jiajun Wu, Katherine L. Bouman, Bill Freeman:
Visual Dynamics: Probabilistic Future Frame Synthesis via Cross Convolutional Networks. NIPS 2016: 91-99 - [i11]Jiajun Wu, Tianfan Xue, Joseph J. Lim, Yuandong Tian, Joshua B. Tenenbaum, Antonio Torralba, William T. Freeman:
Single Image 3D Interpreter Network. CoRR abs/1604.08685 (2016) - [i10]Renqiao Zhang, Jiajun Wu, Chengkai Zhang, William T. Freeman, Joshua B. Tenenbaum:
A Comparative Evaluation of Approximate Probabilistic Simulation and Deep Neural Networks as Accounts of Human Physical Scene Understanding. CoRR abs/1605.01138 (2016) - [i9]Tianfan Xue, Jiajun Wu, Katherine L. Bouman, William T. Freeman:
Visual Dynamics: Probabilistic Future Frame Synthesis via Cross Convolutional Networks. CoRR abs/1607.02586 (2016) - [i8]Andrew Owens, Jiajun Wu, Josh H. McDermott, William T. Freeman, Antonio Torralba:
Ambient Sound Provides Supervision for Visual Learning. CoRR abs/1608.07017 (2016) - [i7]Shaul Oron, Tali Dekel, Tianfan Xue, William T. Freeman, Shai Avidan:
Best-Buddies Similarity - Robust Template Matching using Mutual Nearest Neighbors. CoRR abs/1609.01571 (2016) - [i6]Jiajun Wu, Chengkai Zhang, Tianfan Xue, William T. Freeman, Joshua B. Tenenbaum:
Learning a Probabilistic Latent Space of Object Shapes via 3D Generative-Adversarial Modeling. CoRR abs/1610.07584 (2016) - 2015
- [j48]Tianfan Xue, Michael Rubinstein, Ce Liu, William T. Freeman:
A computational approach for obstruction-free photography. ACM Trans. Graph. 34(4): 79:1-79:11 (2015) - [j47]Neal Wadhwa, Tali Dekel, Donglai Wei, Frédo Durand, William T. Freeman:
Deviation magnification: revealing departures from ideal geometries. ACM Trans. Graph. 34(6): 226:1-226:10 (2015) - [j46]Tali Dekel, Tomer Michaeli, Michal Irani, William T. Freeman:
Revealing and modifying non-local variations in a single image. ACM Trans. Graph. 34(6): 227:1-227:11 (2015) - [c103]Tali Dekel, Shaul Oron, Michael Rubinstein, Shai Avidan, William T. Freeman:
Best-Buddies Similarity for robust template matching. CVPR 2015: 2021-2029 - [c102]Yichang Shih, Dilip Krishnan, Frédo Durand, William T. Freeman:
Reflection removal using ghosting cues. CVPR 2015: 3193-3201 - [c101]Tianfan Xue, Hossein Mobahi, Frédo Durand, William T. Freeman:
The aperture problem for refractive motion. CVPR 2015: 3386-3394 - [c100]Mohamed A. Elgharib, Mohamed Hefeeda, Frédo Durand, William T. Freeman:
Video magnification in presence of large motions. CVPR 2015: 4119-4127 - [c99]Abe Davis, Katherine L. Bouman, Justin G. Chen, Michael Rubinstein, Frédo Durand, William T. Freeman:
Visual vibrometry: Estimating material properties from small motions in video. CVPR 2015: 5335-5343 - [c98]Daniel Zoran, Phillip Isola, Dilip Krishnan, William T. Freeman:
Learning Ordinal Relationships for Mid-Level Vision. ICCV 2015: 388-396 - [c97]Jiajun Wu, Ilker Yildirim, Joseph J. Lim, Bill Freeman, Joshua B. Tenenbaum:
Galileo: Perceiving Physical Object Properties by Integrating a Physics Engine with Deep Learning. NIPS 2015: 127-135 - [i5]Donglai Wei, Bolei Zhou, Antonio Torralba, William T. Freeman:
Understanding Intra-Class Knowledge Inside CNN. CoRR abs/1507.02379 (2015) - [i4]Katherine L. Bouman, Michael D. Johnson, Daniel Zoran, Vincent L. Fish, Sheperd S. Doeleman, William T. Freeman:
Computational Imaging for VLBI Image Reconstruction. CoRR abs/1512.01413 (2015) - [i3]Andrew Owens, Phillip Isola, Josh H. McDermott, Antonio Torralba, Edward H. Adelson, William T. Freeman:
Visually Indicated Sounds. CoRR abs/1512.08512 (2015) - 2014
- [j45]Antonio Torralba, William T. Freeman:
Accidental Pinhole and Pinspeck Cameras - Revealing the Scene Outside the Picture. Int. J. Comput. Vis. 110(2): 92-112 (2014) - [j44]Abe Davis, Michael Rubinstein, Neal Wadhwa, Gautham J. Mysore, Frédo Durand, William T. Freeman:
The visual microphone: passive recovery of sound from video. ACM Trans. Graph. 33(4): 79:1-79:10 (2014) - [j43]Yichang Shih, Sylvain Paris, Connelly Barnes, William T. Freeman, Frédo Durand:
Style transfer for headshot portraits. ACM Trans. Graph. 33(4): 148:1-148:14 (2014) - [c96]Donglai Wei, Ce Liu, William T. Freeman:
A Data-Driven Regularization Model for Stereo and Flow. 3DV 2014: 277-284 - [c95]Hossein Mobahi, Ce Liu, William T. Freeman:
A Compositional Model for Low-Dimensional Image Set Representation. CVPR 2014: 1322-1329 - [c94]Lyndsey C. Pickup, Zheng Pan, Donglai Wei, Yi-Chang Shih, Changshui Zhang, Andrew Zisserman, Bernhard Schölkopf, William T. Freeman:
Seeing the Arrow of Time. CVPR 2014: 2043-2050 - [c93]Andrew Owens, Connelly Barnes, Alex Flint, Hanumant Singh, William T. Freeman:
Camouflaging an Object from Many Viewpoints. CVPR 2014: 2782-2789 - [c92]Tianfan Xue, Michael Rubinstein, Neal Wadhwa, Anat Levin, Frédo Durand, William T. Freeman:
Refraction Wiggles for Measuring Fluid Depth and Velocity from Video. ECCV (3) 2014: 767-782 - [c91]Ayan Chakrabarti, William T. Freeman, Todd E. Zickler:
Rethinking color cameras. ICCP 2014: 1-8 - [c90]Neal Wadhwa, Michael Rubinstein, Frédo Durand, William T. Freeman:
Riesz pyramids for fast phase-based video magnification. ICCP 2014: 1-10 - [c89]Daniel Zoran, Dilip Krishnan, José Bento, Bill Freeman:
Shape and Illumination from Shading using the Generic Viewpoint Assumption. NIPS 2014: 226-234 - 2013
- [j42]Neal Wadhwa, Michael Rubinstein, Frédo Durand, William T. Freeman:
Phase-based video motion processing. ACM Trans. Graph. 32(4): 80:1-80:10 (2013) - [j41]Anat Levin, Daniel Glasner, Ying Xiong, Frédo Durand, William T. Freeman, Wojciech Matusik, Todd E. Zickler:
Fabricating BRDFs at high spatial resolution using wave optics. ACM Trans. Graph. 32(4): 144:1-144:14 (2013) - [j40]Yichang Shih, Sylvain Paris, Frédo Durand, William T. Freeman:
Data-driven hallucination of different times of day from a single outdoor photo. ACM Trans. Graph. 32(6): 200:1-200:11 (2013) - [j39]Piotr Didyk, Pitchaya Sitthi-amorn, William T. Freeman, Frédo Durand, Wojciech Matusik:
Joint view expansion and filtering for automultiscopic 3D displays. ACM Trans. Graph. 32(6): 221:1-221:8 (2013) - [c88]Andrew Owens, Jianxiong Xiao, Antonio Torralba, William T. Freeman:
Shape Anchors for Data-Driven Multi-view Reconstruction. ICCV 2013: 33-40 - [c87]Daozheng Chen, Dhruv Batra, William T. Freeman:
Group Norm for Learning Structured SVMs with Unstructured Latent Variables. ICCV 2013: 409-416 - [c86]Katherine L. Bouman, Bei Xiao, Peter W. Battaglia, William T. Freeman:
Estimating the Material Properties of Fabric from Video. ICCV 2013: 1984-1991 - 2012
- [j38]Taeg Sang Cho, Charles Lawrence Zitnick, Neel Joshi, Sing Bing Kang, Richard Szeliski, William T. Freeman:
Image Restoration by Matching Gradient Distributions. IEEE Trans. Pattern Anal. Mach. Intell. 34(4): 683-694 (2012) - [j37]Hao-Yu Wu, Michael Rubinstein, Eugene Shih, John V. Guttag, Frédo Durand, William T. Freeman:
Eulerian video magnification for revealing subtle changes in the world. ACM Trans. Graph. 31(4): 65:1-65:8 (2012) - [c85]Yichang Shih, Abe Davis, Samuel W. Hasinoff, Frédo Durand, William T. Freeman:
Laser speckle photography for surface tampering detection. CVPR 2012: 33-40 - [c84]Antonio Torralba, William T. Freeman:
Accidental pinhole and pinspeck cameras: Revealing the scene outside the picture. CVPR 2012: 374-381 - [c83]Anat Levin, Boaz Nadler, Frédo Durand, William T. Freeman:
Patch Complexity, Finite Pixel Correlations and Optimal Denoising. ECCV (5) 2012: 73-86 - [c82]Michael Rubinstein, Ce Liu, William T. Freeman:
Annotation Propagation in Large Image Databases via Dense Image Correspondence. ECCV (3) 2012: 85-99 - [c81]Forrester Cole, Phillip Isola, William T. Freeman, Frédo Durand, Edward H. Adelson:
Shapecollage: Occlusion-Aware, Example-Based Shape Interpretation. ECCV (3) 2012: 665-678 - [c80]Roger B. Grosse, Ruslan Salakhutdinov, William T. Freeman, Joshua B. Tenenbaum:
Exploiting compositionality to explore a large space of model structures. UAI 2012: 306-315 - [i2]Roger B. Grosse, Ruslan Salakhutdinov, William T. Freeman, Joshua B. Tenenbaum:
Exploiting compositionality to explore a large space of model structures. CoRR abs/1210.4856 (2012) - 2011
- [j36]William T. Freeman:
A perfect 'match': technical perspective. Commun. ACM 54(11): 102 (2011) - [j35]Anat Levin, Yair Weiss, Frédo Durand, William T. Freeman:
Understanding Blind Deconvolution Algorithms. IEEE Trans. Pattern Anal. Mach. Intell. 33(12): 2354-2367 (2011) - [j34]Micah K. Johnson, Kevin Dale, Shai Avidan, Hanspeter Pfister, William T. Freeman, Wojciech Matusik:
CG2Real: Improving the Realism of Computer Generated Images Using a Large Collection of Photographs. IEEE Trans. Vis. Comput. Graph. 17(9): 1273-1285 (2011) - [c79]Taeg Sang Cho, Sylvain Paris, Berthold K. P. Horn, William T. Freeman:
Blur kernel estimation using the radon transform. CVPR 2011: 241-248 - [c78]Michael Rubinstein, Ce Liu, Peter Sand, Frédo Durand, William T. Freeman:
Motion denoising with application to time-lapse photography. CVPR 2011: 313-320 - [c77]Anat Levin, Yair Weiss, Frédo Durand, William T. Freeman:
Efficient marginal likelihood optimization in blind deconvolution. CVPR 2011: 2657-2664 - [c76]Samuel W. Hasinoff, Anat Levin, Philip R. Goode, William T. Freeman:
Diffuse reflectance imaging with astronomical applications. ICCV 2011: 185-192 - [c75]Biliana Kaneva, Antonio Torralba, William T. Freeman:
Evaluation of image features using a photorealistic virtual world. ICCV 2011: 2282-2289 - [c74]William T. Freeman:
Where computer vision needs help from computer science. SODA 2011: 814-819 - 2010
- [j33]Antonio Torralba, Kevin P. Murphy, William T. Freeman:
Using the forest to see the trees: exploiting context for visual object detection and localization. Commun. ACM 53(3): 107-114 (2010) - [j32]Erik B. Sudderth, Alexander T. Ihler, Michael Isard, William T. Freeman, Alan S. Willsky:
Nonparametric belief propagation. Commun. ACM 53(10): 95-103 (2010) - [j31]Taeg Sang Cho, Shai Avidan, William T. Freeman:
The Patch Transform. IEEE Trans. Pattern Anal. Mach. Intell. 32(8): 1489-1501 (2010) - [j30]Biliana Kaneva, Josef Sivic, Antonio Torralba, Shai Avidan, William T. Freeman:
Infinite Images: Creating and Exploring a Large Photorealistic Virtual Space. Proc. IEEE 98(8): 1391-1407 (2010) - [c73]Taeg Sang Cho, Neel Joshi, C. Lawrence Zitnick, Sing Bing Kang, Richard Szeliski, William T. Freeman:
A content-aware image prior. CVPR 2010: 169-176 - [c72]Taeg Sang Cho, Shai Avidan, William T. Freeman:
A probabilistic image jigsaw puzzle solver. CVPR 2010: 183-190 - [c71]Samuel W. Hasinoff, Frédo Durand, William T. Freeman:
Noise-optimal capture for high dynamic range photography. CVPR 2010: 553-560 - [c70]Long Zhu, Yuanhao Chen, Alan L. Yuille, William T. Freeman:
Latent hierarchical structural learning for object detection. CVPR 2010: 1062-1069 - [c69]Long Zhu, Yuanhao Chen, Antonio Torralba, William T. Freeman, Alan L. Yuille:
Part and appearance sharing: Recursive Compositional Models for multi-view. CVPR 2010: 1919-1926 - [c68]Ayan Chakrabarti, Todd E. Zickler, William T. Freeman:
Analyzing spatially-varying blur. CVPR 2010: 2512-2519 - [c67]Ce Liu, William T. Freeman:
A High-Quality Video Denoising Algorithm Based on Reliable Motion Estimation. ECCV (3) 2010: 706-719
2000 – 2009
- 2009
- [j29]Anat Levin, Samuel W. Hasinoff, Paul Green, Frédo Durand, William T. Freeman:
4D frequency analysis of computational cameras for depth of field extension. ACM Trans. Graph. 28(3): 97 (2009) - [c66]Anat Levin, Yair Weiss, Frédo Durand, William T. Freeman:
Understanding and evaluating blind deconvolution algorithms. CVPR 2009: 1964-1971 - [c65]Samuel W. Hasinoff, Kiriakos N. Kutulakos, Frédo Durand, William T. Freeman:
Time-constrained photography. ICCV 2009: 333-340 - [c64]Roger B. Grosse, Micah K. Johnson, Edward H. Adelson, William T. Freeman:
Ground truth dataset and baseline evaluations for intrinsic image algorithms. ICCV 2009: 2335-2342 - [c63]Hyun Sung Chang, Yair Weiss, William T. Freeman:
Informative sensing of natural images. ICIP 2009: 3025-3028 - [c62]Bryan C. Russell, Alexei A. Efros, Josef Sivic, Bill Freeman, Andrew Zisserman:
Segmenting Scenes by Matching Image Composites. NIPS 2009: 1580-1588 - [c61]Long Zhu, Yuanhao Chen, Bill Freeman, Antonio Torralba:
Nonparametric Bayesian Texture Learning and Synthesis. NIPS 2009: 2313-2321 - [i1]Hyun Sung Chang, Yair Weiss, William T. Freeman:
Informative Sensing. CoRR abs/0901.4275 (2009) - 2008
- [j28]William T. Freeman, Pietro Perona, Bernhard Schölkopf:
Guest Editorial. Int. J. Comput. Vis. 77(1-3): 1 (2008) - [j27]Bryan C. Russell, Antonio Torralba, Kevin P. Murphy, William T. Freeman:
LabelMe: A Database and Web-Based Tool for Image Annotation. Int. J. Comput. Vis. 77(1-3): 157-173 (2008) - [j26]Erik B. Sudderth, Antonio Torralba, William T. Freeman, Alan S. Willsky:
Describing Visual Scenes Using Transformed Objects and Parts. Int. J. Comput. Vis. 77(1-3): 291-330 (2008) - [j25]Ce Liu, Richard Szeliski, Sing Bing Kang, C. Lawrence Zitnick, William T. Freeman:
Automatic Estimation and Removal of Noise from a Single Image. IEEE Trans. Pattern Anal. Mach. Intell. 30(2): 299-314 (2008) - [j24]Antonio Torralba, Robert Fergus, William T. Freeman:
80 Million Tiny Images: A Large Data Set for Nonparametric Object and Scene Recognition. IEEE Trans. Pattern Anal. Mach. Intell. 30(11): 1958-1970 (2008) - [j23]Erik B. Sudderth, William T. Freeman:
Signal and Image Processing with Belief Propagation [DSP Applications]. IEEE Signal Process. Mag. 25(2): 114-141 (2008) - [j22]Anat Levin, Peter Sand, Taeg Sang Cho, Frédo Durand, William T. Freeman:
Motion-invariant photography. ACM Trans. Graph. 27(3): 71 (2008) - [c60]Taeg Sang Cho, Moshe Butman, Shai Avidan, William T. Freeman:
The patch transform and its applications to image editing. CVPR 2008 - [c59]Ce Liu, William T. Freeman, Edward H. Adelson, Yair Weiss:
Human-assisted motion annotation. CVPR 2008 - [c58]Josef Sivic, Biliana Kaneva, Antonio Torralba, Shai Avidan, William T. Freeman:
Creating and exploring a large photorealistic virtual space. CVPR Workshops 2008: 1-8 - [c57]Josef Sivic, Bryan C. Russell, Andrew Zisserman, William T. Freeman, Alexei A. Efros:
Unsupervised discovery of visual object class hierarchies. CVPR 2008 - [c56]Ce Liu, Jenny Yuen, Antonio Torralba, Josef Sivic, William T. Freeman:
SIFT Flow: Dense Correspondence across Different Scenes. ECCV (3) 2008: 28-42 - [c55]Anat Levin, William T. Freeman, Frédo Durand:
Understanding Camera Trade-Offs through a Bayesian Analysis of Light Field Projections. ECCV (4) 2008: 88-101 - 2007
- [j21]Neel Joshi, Wojciech Matusik, Shai Avidan, Hanspeter Pfister, William T. Freeman:
Exploring Defocus Matting: Nonparametric Acceleration, Super-Resolution, and Off-Center Matting. IEEE Computer Graphics and Applications 27(2): 43-52 (2007) - [j20]Ce Liu, Heung-Yeung Shum, William T. Freeman:
Face Hallucination: Theory and Practice. Int. J. Comput. Vis. 75(1): 115-134 (2007) - [j19]Antonio Torralba, Kevin P. Murphy, William T. Freeman:
Sharing Visual Features for Multiclass and Multiview Object Detection. IEEE Trans. Pattern Anal. Mach. Intell. 29(5): 854-869 (2007) - [j18]Anat Levin, Robert Fergus, Frédo Durand, William T. Freeman:
Image and depth from a conventional camera with a coded aperture. ACM Trans. Graph. 26(3): 70 (2007) - [c54]Marshall F. Tappen, Ce Liu, Edward H. Adelson, William T. Freeman:
Learning Gaussian Conditional Random Fields for Low-Level Vision. CVPR 2007 - [c53]Yair Weiss, William T. Freeman:
What makes a good model of natural images? CVPR 2007 - [c52]Taeg Sang Cho, William T. Freeman, Hensin Tsao:
A reliable skin mole localization scheme. ICCV 2007: 1-8 - [c51]Bryan C. Russell, Antonio Torralba, Ce Liu, Robert Fergus, William T. Freeman:
Object Recognition by Scene Alignment. NIPS 2007: 1241-1248 - [c50]William T. Freeman:
The Random Camera, the Coded Aperture Camera, and Other Cameras. Rendering Techniques 2007: 9 - 2006
- [j17]Robert Fergus, Barun Singh, Aaron Hertzmann, Sam T. Roweis, William T. Freeman:
Removing camera shake from a single photograph. ACM Trans. Graph. 25(3): 787-794 (2006) - [c49]Antonio Torralba, Kevin P. Murphy, William T. Freeman:
Shared Features for Multiclass Object Detection. Toward Category-Level Object Recognition 2006: 345-361 - [c48]Kevin P. Murphy, Antonio Torralba, Daniel Eaton, William T. Freeman:
Object Detection and Localization Using Local and Global Features. Toward Category-Level Object Recognition 2006: 382-400 - [c47]Ce Liu, William T. Freeman, Richard Szeliski, Sing Bing Kang:
Noise Estimation from a Single Image. CVPR (1) 2006: 901-908 - [c46]Bryan C. Russell, William T. Freeman, Alexei A. Efros, Josef Sivic, Andrew Zisserman:
Using Multiple Segmentations to Discover Objects and their Extent in Image Collections. CVPR (2) 2006: 1605-1614 - [c45]Marshall F. Tappen, Edward H. Adelson, William T. Freeman:
Estimating Intrinsic Component Images using Non-Linear Regression. CVPR (2) 2006: 1992-1999 - [c44]Erik B. Sudderth, Antonio Torralba, William T. Freeman, Alan S. Willsky:
Depth from Familiar Objects: A Hierarchical Model for 3D Scenes. CVPR (2) 2006: 2410-2417 - [c43]Ce Liu, William T. Freeman, Edward H. Adelson:
Analysis of Contour Motions. NIPS 2006: 913-920 - 2005
- [j16]Marshall F. Tappen, William T. Freeman, Edward H. Adelson:
Recovering Intrinsic Images from a Single Image. IEEE Trans. Pattern Anal. Mach. Intell. 27(9): 1459-1472 (2005) - [j15]Jonathan S. Yedidia, William T. Freeman, Yair Weiss:
Constructing free-energy approximations and generalized belief propagation algorithms. IEEE Trans. Inf. Theory 51(7): 2282-2312 (2005) - [j14]Ce Liu, Antonio Torralba, William T. Freeman, Frédo Durand, Edward H. Adelson:
Motion magnification. ACM Trans. Graph. 24(3): 519-526 (2005) - [c42]Josef Sivic, Bryan C. Russell, Alexei A. Efros, Andrew Zisserman, William T. Freeman:
Discovering Objects and their Localization in Images. ICCV 2005: 370-377 - [c41]Srinivas Ravela, Antonio Torralba, William T. Freeman:
An Ensemble Prior of Image Structure for Cross-Modal Inference. ICCV 2005: 871-876 - [c40]Erik B. Sudderth, Antonio Torralba, William T. Freeman, Alan S. Willsky:
Learning Hierarchical Models of Scenes, Objects, and Parts. ICCV 2005: 1331-1338 - [c39]Erik B. Sudderth, Antonio Torralba, William T. Freeman, Alan S. Willsky:
Describing Visual Scenes using Transformed Dirichlet Processes. NIPS 2005: 1297-1304 - 2004
- [c38]Erik B. Sudderth, Michael I. Mandel, William T. Freeman, Alan S. Willsky:
Visual Hand Tracking Using Nonparametric Belief Propagation. CVPR Workshops 2004: 189 - [c37]Marshall F. Tappen, Bryan C. Russell, William T. Freeman:
Efficient Graphical Models for Processing Images. CVPR (2) 2004: 673-680 - [c36]Antonio Torralba, Kevin P. Murphy, William T. Freeman:
Sharing Features: Efficient Boosting Procedures for Multiclass Object Detection. CVPR (2) 2004: 762-769 - [c35]Gerald Dalley, William T. Freeman, Joe Marks:
Single-frame text super-resolution: a bayesian approach. ICIP 2004: 3295-3298 - [c34]Erik B. Sudderth, Michael I. Mandel, William T. Freeman, Alan S. Willsky:
Distributed Occlusion Reasoning for Tracking with Nonparametric Belief Propagation. NIPS 2004: 1369-1376 - [c33]Antonio Torralba, Kevin P. Murphy, William T. Freeman:
Contextual Models for Object Detection Using Boosted Random Fields. NIPS 2004: 1401-1408 - 2003
- [j13]James M. Rehg, Vladimir Pavlovic, Thomas S. Huang, William T. Freeman:
Guest Editors' Introduction to the Special Section on Graphical Models in Computer Vision. IEEE Trans. Pattern Anal. Mach. Intell. 25(7): 785-786 (2003) - [j12]William T. Freeman, Joshua B. Tenenbaum, Egon C. Pasztor:
Learning style translation for the lines of a drawing. ACM Trans. Graph. 22(1): 33-46 (2003) - [c32]William T. Freeman, Hao Zhang:
Shape-Time Photography. CVPR (2) 2003: 151-157 - [c31]Antonio Torralba, William T. Freeman:
Properties and Applications of Shape Recipes. CVPR (2) 2003: 383-390 - [c30]Erik B. Sudderth, Alexander T. Ihler, William T. Freeman, Alan S. Willsky:
Nonparametric Belief Propagation. CVPR (1) 2003: 605-612 - [c29]Antonio Torralba, Kevin P. Murphy, William T. Freeman, Mark A. Rubin:
Context-based vision system for place and object recognition. ICCV 2003: 273-280 - [c28]Marshall F. Tappen, William T. Freeman:
Comparison of Graph Cuts with Belief Propagation for Stereo, using Identical MRF Parameters. ICCV 2003: 900-907 - [c27]Alexander T. Ihler, Erik B. Sudderth, William T. Freeman, Alan S. Willsky:
Efficient Multiscale Sampling from Products of Gaussian Mixtures. NIPS 2003: 1-8 - [c26]Kevin P. Murphy, Antonio Torralba, William T. Freeman:
Using the Forest to See the Trees: A Graphical Model Relating Features, Objects, and Scenes. NIPS 2003: 1499-1506 - 2002
- [j11]William T. Freeman, Thouis R. Jones, Egon C. Pasztor:
Example-Based Super-Resolution. IEEE Computer Graphics and Applications 22(2): 56-65 (2002) - [c25]William T. Freeman, Antonio Torralba:
Shape Recipes: Scene Representations that Refer to the Image. NIPS 2002: 1335-1342 - [c24]Marshall F. Tappen, William T. Freeman, Edward H. Adelson:
Recovering Intrinsic Images from a Single Image. NIPS 2002: 1343-1350 - 2001
- [j10]Yair Weiss, William T. Freeman:
Correctness of Belief Propagation in Gaussian Graphical Models of Arbitrary Topology. Neural Comput. 13(10): 2173-2200 (2001) - [j9]Yair Weiss, William T. Freeman:
On the optimality of solutions of the max-product belief-propagation algorithm in arbitrary graphs. IEEE Trans. Inf. Theory 47(2): 736-744 (2001) - [c23]Matt Bell, William T. Freeman:
Learning Local Evidence for Shading and Reflectance. ICCV 2001: 670-677 - [c22]Joe Marks, William T. Freeman, Henry H. Leitner:
Teaching applied computing without programming: a case-based introductory course for general education. SIGCSE 2001: 80-84 - [c21]Alexei A. Efros, William T. Freeman:
Image quilting for texture synthesis and transfer. SIGGRAPH 2001: 341-346 - 2000
- [j8]William T. Freeman, Egon C. Pasztor, Owen T. Carmichael:
Learning Low-Level Vision. Int. J. Comput. Vis. 40(1): 25-47 (2000) - [j7]Joshua B. Tenenbaum, William T. Freeman:
Separating Style and Content with Bilinear Models. Neural Comput. 12(6): 1247-1283 (2000) - [c20]Trevor Darrell, John W. Fisher III, Paul A. Viola, William T. Freeman:
Ausio-visual Segmentation and "The Cocktail Party Effect". ICMI 2000: 32-40 - [c19]Jonathan S. Yedidia, William T. Freeman, Yair Weiss:
Generalized Belief Propagation. NIPS 2000: 689-695 - [c18]John W. Fisher III, Trevor Darrell, William T. Freeman, Paul A. Viola:
Learning Joint Statistical Models for Audio-Visual Fusion and Segregation. NIPS 2000: 772-778
1990 – 1999
- 1999
- [c17]William T. Freeman, Egon C. Pasztor:
Learning Low-Level Vision. ICCV 1999: 1182-1189 - [c16]Yair Weiss, William T. Freeman:
Correctness of Belief Propagation in Gaussian Graphical Models of Arbitrary Topology. NIPS 1999: 673-679 - [c15]Nicholas R. Howe, Michael E. Leventon, William T. Freeman:
Bayesian Reconstruction of 3D Human Motion from Single-Camera Video. NIPS 1999: 820-826 - 1998
- [j6]William T. Freeman, David B. Anderson, Paul A. Beardsley, Chris Dodge, Michal Roth, Craig D. Weissman, William S. Yerazunis, Hiroshi Kage, Kazuo Kyuma, Yasunari Miyake, Ken-ichi Tanaka:
Computer Vision for Interactive Computer Graphics. IEEE Computer Graphics and Applications 18(3): 42-53 (1998) - [c14]Pietro Perona, William T. Freeman:
A Factorization Approach to Grouping. ECCV (1) 1998: 655-670 - [c13]William T. Freeman, Egon C. Pasztor:
Learning to Estimate Scenes from Images. NIPS 1998: 775-781 - [c12]Michael Harris, Bill Buxton, William T. Freeman, Hiroshi Ishii, Mark Lucente, Michael J. Sinclair:
Interfaces for humans (panel): natural interaction, tangible data, and beyond. SIGGRAPH Abstracts and Applications 1998: 200-202 - 1997
- [c11]William T. Freeman, Joshua B. Tenenbaum:
Learning bilinear models for two-factor problems in vision. CVPR 1997: 554-560 - [c10]William T. Freeman, Paul A. Viola:
Bayesian Model of Surface Perception. NIPS 1997: 787-793 - [c9]Joe Marks, Brad Andalman, Paul A. Beardsley, William T. Freeman, Sarah F. Gibson, Jessica K. Hodgins, T. Kang, Brian Mirtich, Hanspeter Pfister, Wheeler Ruml, Kathy Ryall, Joshua E. Seims, Stuart M. Shieber:
Design galleries: a general approach to setting parameters for computer graphics and animation. SIGGRAPH 1997: 389-400 - 1996
- [j5]William T. Freeman:
Exploiting the generic viewpoint assumption. Int. J. Comput. Vis. 20(3): 243-261 (1996) - [c8]William T. Freeman, Ken-ichi Tanaka, Jun Ohta, Kazuo Kyuma:
Computer vision for computer games. FG 1996: 100-105 - [c7]Sourabh Niyogi, William T. Freeman:
Example-based head tracking. FG 1996: 374-378 - [c6]Joshua B. Tenenbaum, William T. Freeman:
Separating Style and Content. NIPS 1996: 662-668 - 1995
- [c5]William T. Freeman, David H. Brainard:
Bayesian Decision Theory, the Maximum Local Mass Estimate, and Color Constancy. ICCV 1995: 210-217 - [c4]Eero P. Simoncelli, William T. Freeman:
The steerable pyramid: a flexible architecture for multi-scale derivative computation. ICIP (3) 1995: 444-447 - 1994
- [j4]Charles Rich, Richard C. Waters, Carol Strohecker, Yves Schabes, William T. Freeman, Mark C. Torrance, Andrew R. Golding, Michal Roth:
Demonstration of an Interactive Multimedia Environment. Computer 27(12): 15-22 (1994) - [j3]Charles Rich, Richard C. Waters, Yves Schabes, William T. Freeman, Mark C. Torrance, Andrew R. Golding, Michal Roth:
An Animated On-Line Community with Artificial Agents. IEEE Multim. 1(4): 32-42 (1994) - 1993
- [c3]William T. Freeman:
Exploiting the generic view assumption to estimate scene parameters. ICCV 1993: 347-356 - 1992
- [j2]Eero P. Simoncelli, William T. Freeman, Edward H. Adelson, David J. Heeger:
Shiftable multiscale transforms. IEEE Trans. Inf. Theory 38(2): 587-607 (1992) - 1991
- [j1]William T. Freeman, Edward H. Adelson:
The Design and Use of Steerable Filters. IEEE Trans. Pattern Anal. Mach. Intell. 13(9): 891-906 (1991) - [c2]William T. Freeman, Edward H. Adelson, David J. Heeger:
Motion without movement. SIGGRAPH 1991: 27-30 - 1990
- [c1]William T. Freeman, Edward H. Adelson:
Steerable filters for early vision, image analysis, and wavelet decomposition. ICCV 1990: 406-415
Coauthor Index
[c197] [c194] [i101] [i93] [j71] [c184] [c181] [c180] [d1] [i90] [i89] [i86] [i83] [i82] [i74] [i73] [j67] [c168] [c164] [i65] [i61] [c150] [c139] [i39] [i37] [c134] [c130] [c126] [i35] [j55] [j54] [j53] [j51] [c116] [j47] [c102] [c101] [c100] [c99] [j44] [j43] [c92] [c90] [j42] [j41] [j40] [j39] [j37] [c85] [c83] [c81] [j35] [c78] [c77] [c71] [j29] [c66] [c65] [j22] [c55] [j18] [j14]
[c184] [c181] [i86] [i80] [i74] [c164] [i65] [c162] [c157] [c155] [i54] [i47] [c149] [c146] [c145] [c144] [c143] [c142] [c141] [c140] [i46] [i45] [i44] [i38] [j61] [c137] [c136] [c131] [c129] [c128] [c127] [c125] [c124] [c123] [c122] [i36] [i33] [i30] [i28] [i27] [i26] [i25] [i23] [i21] [i20] [i19] [i18] [c117] [c114] [c113] [c112] [i15] [c111] [c110] [c107] [c105] [i11] [i10] [i6] [c97] [c80] [i2] [j12] [j7] [c11] [c6]
[i95] [i87] [c168] [i61] [c157] [c146] [c145] [i45] [j61] [j60] [j58] [c134] [c126] [c125] [c123] [i36] [i28] [i21] [i20] [c116] [i13] [c108] [c107] [c106] [i11] [i8] [i5] [i3] [j45] [c88] [c84] [c75] [j33] [j30] [c69] [c61] [j27] [j26] [j24] [c58] [c56] [j19] [c51] [c49] [c48] [c44] [j14] [c41] [c40] [c39] [c36] [c33] [c31] [c29] [c26] [c25]
[c196] [c192] [i102] [i98] [i81] [c162] [c157] [c155] [i54] [i47] [j64] [j63] [c149] [c144] [c143] [c142] [c141] [c140] [i46] [i44] [i38] [j61] [j60] [c137] [c136] [c131] [c129] [c128] [c127] [c125] [c124] [c123] [c122] [c120] [i36] [i33] [i31] [i30] [i28] [i27] [i26] [i25] [i24] [i23] [i20] [i19] [i18] [c117] [c114] [c113] [c112] [i15] [i14] [i13] [c111] [c110] [c107] [c106] [c105] [c104] [i11] [i10] [i9] [i8] [i6] [c97]
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 2025-01-24 17:19 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:
