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ORCIDFrédo Durand
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- affiliation: Massachusetts Institute of Technology, Cambridge, USA
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2020 – today
- 2024
[c102]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- [c101]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 - [c100]Vibhaalakshmi Sivaraman, Pantea Karimi, Vedantha Venkatapathy, Mehrdad Khani Shirkoohi, Sadjad Fouladi, Mohammad Alizadeh, Frédo Durand, Vivienne Sze:
Gemino: Practical and Robust Neural Compression for Video Conferencing. NSDI 2024: 569-590 - [i38]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) - [i37]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
- [j123]Cameron Smith, Hong-Xing Yu, Sergey Zakharov, Frédo Durand, Joshua B. Tenenbaum, Jiajun Wu, Vincent Sitzmann:
Unsupervised Discovery and Composition of Object Light Fields. Trans. Mach. Learn. Res. 2023 (2023) - [j122]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) - [j121]Sai Praveen Bangaru, Lifan Wu, Tzu-Mao Li, Jacob Munkberg, Gilbert Bernstein, Jonathan Ragan-Kelley, Frédo Durand, Aaron E. Lefohn, Yong He:
SLANG.D: Fast, Modular and Differentiable Shader Programming. ACM Trans. Graph. 42(6): 264:1-264:28 (2023) - [c99]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 - [c98]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 - [c97]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
- [i36]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) - [i35]Prafull Sharma, Julien Philip, Michaël Gharbi, William T. Freeman, Frédo Durand, Valentin Deschaintre:
Materialistic: Selecting Similar Materials in Images. CoRR abs/2305.13291 (2023) - [i34]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) - [i33]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) - [i32]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) - 2022
- [j120]Spandan Madan, Timothy Henry, Jamell Dozier, Helen Ho, Nishchal Bhandari, Tomotake Sasaki, Frédo Durand, Hanspeter Pfister, Xavier Boix:
When and how convolutional neural networks generalize to out-of-distribution category-viewpoint combinations. Nat. Mach. Intell. 4(2): 146-153 (2022) - [j119]Xin Yuan, Yang Liu, Jinli Suo, Frédo Durand, Qionghai Dai:
Plug-and-Play Algorithms for Video Snapshot Compressive Imaging. IEEE Trans. Pattern Anal. Mach. Intell. 44(10): 7093-7111 (2022) - [c96]Caroline Chan, Frédo Durand, Phillip Isola:
Learning to generate line drawings that convey geometry and semantics. CVPR 2022: 7905-7915 - [c95]Sai Praveen Bangaru, Michaël Gharbi, Fujun Luan, Tzu-Mao Li, Kalyan Sunkavalli, Milos Hasan, Sai Bi, Zexiang Xu, Gilbert Bernstein, Frédo Durand:
Differentiable Rendering of Neural SDFs through Reparameterization. SIGGRAPH Asia 2022: 5:1-5:9 - [i31]Caroline Chan, Frédo Durand, Phillip Isola:
Learning to generate line drawings that convey geometry and semantics. CoRR abs/2203.12691 (2022) - [i30]Cameron Smith, Hong-Xing Yu, Sergey Zakharov, Frédo Durand, Joshua B. Tenenbaum, Jiajun Wu, Vincent Sitzmann:
Unsupervised Discovery and Composition of Object Light Fields. CoRR abs/2205.03923 (2022) - [i29]Sai Praveen Bangaru, Michaël Gharbi, Tzu-Mao Li, Fujun Luan, Kalyan Sunkavalli, Milos Hasan, Sai Bi, Zexiang Xu, Gilbert Bernstein, Frédo Durand:
Differentiable Rendering of Neural SDFs through Reparameterization. CoRR abs/2206.05344 (2022) - [i28]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) - [i27]Safa C. Medin, Amir Weiss, Frédo Durand, William T. Freeman, Gregory W. Wornell:
Can Shadows Reveal Biometric Information? CoRR abs/2209.10077 (2022) - [i26]Vibhaalakshmi Sivaraman, Pantea Karimi, Vedantha Venkatapathy, Mehrdad Khani Shirkoohi, Sadjad Fouladi, Mohammad Alizadeh, Frédo Durand, Vivienne Sze:
Gemino: Practical and Robust Neural Compression for Video Conferencing. CoRR abs/2209.10507 (2022) - 2021
- [j118]Theo Thonat, Yagiz Aksoy, Miika Aittala, Sylvain Paris, Frédo Durand, George Drettakis:
Video-Based Rendering of Dynamic Stationary Environments from Unsynchronized Inputs. Comput. Graph. Forum 40(4): 73-86 (2021) - [j117]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) - [c94]Spandan Madan, Zoya Bylinskii, Carolina Nobre, Matthew Tancik, Adrià Recasens, Kimberli Zhong, Sami Alsheikh, Aude Oliva, Frédo Durand, Hanspeter Pfister:
Parsing and Summarizing Infographics with Synthetically Trained Icon Detection. PacificVis 2021: 31-40 - [c93]Sergey Zakharov, Rares Andrei Ambrus, Vitor Guizilini, Dennis Park, Wadim Kehl, Frédo Durand, Joshua B. Tenenbaum, Vincent Sitzmann, Jiajun Wu, Adrien Gaidon:
Single-Shot Scene Reconstruction. CoRL 2021: 501-512 - [c92]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 - [c91]Vincent Sitzmann, Semon Rezchikov, Bill Freeman, Josh Tenenbaum, Frédo Durand:
Light Field Networks: Neural Scene Representations with Single-Evaluation Rendering. NeurIPS 2021: 19313-19325 - [i25]Xin Yuan, Yang Liu, Jinli Suo, Frédo Durand, Qionghai Dai:
Plug-and-Play Algorithms for Video Snapshot Compressive Imaging. CoRR abs/2101.04822 (2021) - [i24]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) - [i23]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) - 2020
- [j116]Sai Praveen Bangaru, Tzu-Mao Li, Frédo Durand:
Unbiased warped-area sampling for differentiable rendering. ACM Trans. Graph. 39(6): 245:1-245:18 (2020) - [c90]Amy Zhao, Guha Balakrishnan, Kathleen M. Lewis, Frédo Durand, John V. Guttag, Adrian V. Dalca:
Painting Many Pasts: Synthesizing Time Lapse Videos of Paintings. CVPR 2020: 8432-8442 - [c89]Yuanming Hu, Luke Anderson, Tzu-Mao Li, Qi Sun, Nathan Carr, Jonathan Ragan-Kelley, Frédo Durand:
DiffTaichi: Differentiable Programming for Physical Simulation. ICLR 2020 - [i22]Amy Zhao, Guha Balakrishnan, Kathleen M. Lewis, Frédo Durand, John V. Guttag, Adrian V. Dalca:
Painting Many Pasts: Synthesizing Time Lapse Videos of Paintings. CoRR abs/2001.01026 (2020) - [i21]Spandan Madan, Timothy Henry, Jamell Dozier, Helen Ho, Nishchal Bhandari, Tomotake Sasaki, Frédo Durand, Hanspeter Pfister, Xavier Boix:
On the Capability of Neural Networks to Generalize to Unseen Category-Pose Combinations. CoRR abs/2007.08032 (2020) - [i20]Yuanming Hu, Mingkuan Xu, Ye Kuang, Frédo Durand:
AsyncTaichi: Whole-Program Optimizations for Megakernel Sparse Computation and Differentiable Programming. CoRR abs/2012.08141 (2020)
2010 – 2019
- 2019
- [j115]Valentin Deschaintre, Miika Aittala, Frédo Durand, George Drettakis, Adrien Bousseau:
Flexible SVBRDF Capture with a Multi-Image Deep Network. Comput. Graph. Forum 38(4): 1-13 (2019) - [j114]Zoya Bylinskii, Tilke Judd, Aude Oliva, Antonio Torralba, Frédo Durand:
What Do Different Evaluation Metrics Tell Us About Saliency Models? IEEE Trans. Pattern Anal. Mach. Intell. 41(3): 740-757 (2019) - [j113]Andrew Adams, Karima Ma, Luke Anderson, Riyadh Baghdadi, Tzu-Mao Li, Michaël Gharbi, Benoit Steiner, Steven Johnson, Kayvon Fatahalian, Frédo Durand, Jonathan Ragan-Kelley:
Learning to optimize halide with tree search and random programs. ACM Trans. Graph. 38(4): 121:1-121:12 (2019) - [j112]Michaël Gharbi, Tzu-Mao Li, Miika Aittala, Jaakko Lehtinen, Frédo Durand:
Sample-based Monte Carlo denoising using a kernel-splatting network. ACM Trans. Graph. 38(4): 125:1-125:12 (2019) - [j111]Yuanming Hu, Tzu-Mao Li, Luke Anderson, Jonathan Ragan-Kelley, Frédo Durand:
Taichi: a language for high-performance computation on spatially sparse data structures. ACM Trans. Graph. 38(6): 201:1-201:16 (2019) - [j110]Fangcheng Zhong, George Alex Koulieris, George Drettakis, Martin S. Banks, Mathieu Chambe, Frédo Durand, Rafal K. Mantiuk:
DiCE: dichoptic contrast enhancement for VR and stereo displays. ACM Trans. Graph. 38(6): 211:1-211:13 (2019) - [j109]Yulia Gryaditskaya, Mark Sypesteyn, Jan Willem Hoftijzer, Sylvia C. Pont, Frédo Durand, Adrien Bousseau:
OpenSketch: a richly-annotated dataset of product design sketches. ACM Trans. Graph. 38(6): 232:1-232:16 (2019) - [c88]Amy Zhao, Guha Balakrishnan, Frédo Durand, John V. Guttag, Adrian V. Dalca:
Data Augmentation Using Learned Transformations for One-Shot Medical Image Segmentation. CVPR 2019: 8543-8553 - [c87]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 - [c86]Lukas Murmann, Michaël Gharbi, Miika Aittala, Frédo Durand:
A Dataset of Multi-Illumination Images in the Wild. ICCV 2019: 4079-4088 - [c85]Aleksandar Zlateski, Zhen Jia, Kai Li, Frédo Durand:
The anatomy of efficient FFT and winograd convolutions on modern CPUs. ICS 2019: 414-424 - [c84]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 - [c83]Fangcheng Zhong, George Alex Koulieris, George Drettakis, Martin S. Banks, Mathieu Chambe, Frédo Durand, Rafal Mantiuk:
DiCE: dichoptic contrast enhancement for binocular displays. SIGGRAPH Posters 2019: 36:1-36:2 - [i19]Amy Zhao, Guha Balakrishnan, Frédo Durand, John V. Guttag, Adrian V. Dalca:
Data augmentation using learned transforms for one-shot medical image segmentation. CoRR abs/1902.09383 (2019) - [i18]Ronnachai Jaroensri, Camille Biscarrat, Miika Aittala, Frédo Durand:
Generating Training Data for Denoising Real RGB Images via Camera Pipeline Simulation. CoRR abs/1904.08825 (2019) - [i17]Valentin Deschaintre, Miika Aittala, Frédo Durand, George Drettakis, Adrien Bousseau:
Flexible SVBRDF Capture with a Multi-Image Deep Network. CoRR abs/1906.11557 (2019) - [i16]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) - [i15]Yuanming Hu, Luke Anderson, Tzu-Mao Li, Qi Sun, Nathan Carr, Jonathan Ragan-Kelley, Frédo Durand:
DiffTaichi: Differentiable Programming for Physical Simulation. CoRR abs/1910.00935 (2019) - [i14]Lukas Murmann, Michaël Gharbi, Miika Aittala, Frédo Durand:
A Dataset of Multi-Illumination Images in the Wild. CoRR abs/1910.08131 (2019) - [i13]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
- [j108]Jonathan Ragan-Kelley, Andrew Adams, Dillon Sharlet, Connelly Barnes, Sylvain Paris, Marc Levoy, Saman P. Amarasinghe, Frédo Durand:
Halide: decoupling algorithms from schedules for high-performance image processing. Commun. ACM 61(1): 106-115 (2018) - [j107]Theo Thonat, Abdelaziz Djelouah, Frédo Durand, George Drettakis:
Thin Structures in Image Based Rendering. Comput. Graph. Forum 37(4): 107-118 (2018) - [j106]Simon Rodriguez, Adrien Bousseau, Frédo Durand, George Drettakis:
Exploiting Repetitions for Image-Based Rendering of Facades. Comput. Graph. Forum 37(4): 119-131 (2018) - [j105]Valentin Deschaintre, Miika Aittala, Frédo Durand, George Drettakis, Adrien Bousseau:
Single-image SVBRDF capture with a rendering-aware deep network. ACM Trans. Graph. 37(4): 128 (2018) - [j104]Tzu-Mao Li, Michaël Gharbi, Andrew Adams, Frédo Durand, Jonathan Ragan-Kelley:
Differentiable programming for image processing and deep learning in halide. ACM Trans. Graph. 37(4): 139 (2018) - [j103]Tzu-Mao Li, Miika Aittala, Frédo Durand, Jaakko Lehtinen:
Differentiable Monte Carlo ray tracing through edge sampling. ACM Trans. Graph. 37(6): 222 (2018) - [j102]Shuang Zhao, Frédo Durand, Changxi Zheng:
Inverse Diffusion Curves Using Shape Optimization. IEEE Trans. Vis. Comput. Graph. 24(7): 2153-2166 (2018) - [c82]Aleksandar Zlateski, Ronnachai Jaroensri, Prafull Sharma, Frédo Durand:
On the Importance of Label Quality for Semantic Segmentation. CVPR 2018: 1479-1487 - [c81]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 - [c80]Guha Balakrishnan, Amy Zhao, Adrian V. Dalca, Frédo Durand, John V. Guttag:
Synthesizing Images of Humans in Unseen Poses. CVPR 2018: 8340-8348 - [c79]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 - [c78]Miika Aittala, Frédo Durand:
Burst Image Deblurring Using Permutation Invariant Convolutional Neural Networks. ECCV (8) 2018: 748-764 - [c77]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 - [c76]Zhen Jia, Aleksandar Zlateski, Frédo Durand, Kai Li:
Optimizing N-dimensional, winograd-based convolution for manycore CPUs. PPoPP 2018: 109-123 - [i12]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) - [i11]Guha Balakrishnan, Amy Zhao, Adrian V. Dalca, Frédo Durand, John V. Guttag:
Synthesizing Images of Humans in Unseen Poses. CoRR abs/1804.07739 (2018) - [i10]Spandan Madan, Zoya Bylinskii, Matthew Tancik, Adrià Recasens, Kimberli Zhong, Sami Alsheikh, Hanspeter Pfister, Aude Oliva, Frédo Durand:
Synthetically Trained Icon Proposals for Parsing and Summarizing Infographics. CoRR abs/1807.10441 (2018) - [i9]Aleksandar Zlateski, Zhen Jia, Kai Li, Frédo Durand:
FFT Convolutions are Faster than Winograd on Modern CPUs, Here is Why. CoRR abs/1809.07851 (2018) - [i8]Valentin Deschaintre, Miika Aittala, Frédo Durand, George Drettakis, Adrien Bousseau:
Single-Image SVBRDF Capture with a Rendering-Aware Deep Network. CoRR abs/1810.09718 (2018) - 2017
- [j101]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) - [j100]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) - [j99]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) - [j98]Nam Wook Kim, Zoya Bylinskii, Michelle A. Borkin, Krzysztof Z. Gajos, Aude Oliva, Frédo Durand, Hanspeter Pfister:
BubbleView: An Interface for Crowdsourcing Image Importance Maps and Tracking Visual Attention. ACM Trans. Comput. Hum. Interact. 24(5): 36:1-36:40 (2017) - [j97]Luke Anderson, Tzu-Mao Li, Jaakko Lehtinen, Frédo Durand:
Aether: an embedded domain specific sampling language for Monte Carlo rendering. ACM Trans. Graph. 36(4): 99:1-99:16 (2017) - [j96]Michaël Gharbi, Jiawen Chen, Jonathan T. Barron, Samuel W. Hasinoff, Frédo Durand:
Deep bilateral learning for real-time image enhancement. ACM Trans. Graph. 36(4): 118:1-118:12 (2017) - [j95]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) - [c75]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 - [c74]Ronnachai Jaroensri, Amy Zhao, Guha Balakrishnan, Derek Lo, Jeremy D. Schmahmann, Frédo Durand, John V. Guttag:
A Video-Based Method for Automatically Rating Ataxia. MLHC 2017: 204-216 - [c73]Zoya Bylinskii, Nam Wook Kim, Peter O'Donovan, Sami Alsheikh, Spandan Madan, Hanspeter Pfister, Frédo Durand, Bryan C. Russell, Aaron Hertzmann:
Learning Visual Importance for Graphic Designs and Data Visualizations. UIST 2017: 57-69 - [i7]Nam Wook Kim, Zoya Bylinskii, Michelle A. Borkin, Krzysztof Z. Gajos, Aude Oliva, Frédo Durand, Hanspeter Pfister:
BubbleView: an alternative to eye-tracking for crowdsourcing image importance. CoRR abs/1702.05150 (2017) - [i6]Michaël Gharbi, Jiawen Chen, Jonathan T. Barron, Samuel W. Hasinoff, Frédo Durand:
Deep Bilateral Learning for Real-Time Image Enhancement. CoRR abs/1707.02880 (2017) - [i5]Zoya Bylinskii, Nam Wook Kim, Peter O'Donovan, Sami Alsheikh, Spandan Madan, Hanspeter Pfister, Frédo Durand, Bryan C. Russell, Aaron Hertzmann:
Learning Visual Importance for Graphic Designs and Data Visualizations. CoRR abs/1708.02660 (2017) - [i4]Zoya Bylinskii, Sami Alsheikh, Spandan Madan, Adrià Recasens, Kimberli Zhong, Hanspeter Pfister, Frédo Durand, Aude Oliva:
Understanding Infographics through Textual and Visual Tag Prediction. CoRR abs/1709.09215 (2017) - 2016
- [j94]Hijung Valentina Shin, Christopher F. Porst, Etienne Vouga, John Ochsendorf, Frédo Durand:
Reconciling Elastic and Equilibrium Methods for Static Analysis. ACM Trans. Graph. 35(2): 13:1-13:16 (2016) - [j93]Shuang Zhao, Frédo Durand, Ravi Ramamoorthi:
Downsampling scattering parameters for rendering anisotropic media. ACM Trans. Graph. 35(6): 166:1-166:11 (2016) - [j92]Lukas Murmann, Abe Davis, Jan Kautz, Frédo Durand:
Computational bounce flash for indoor portraits. ACM Trans. Graph. 35(6): 190:1-190:9 (2016) - [j91]Michaël Gharbi, Gaurav Chaurasia, Sylvain Paris, Frédo Durand:
Deep joint demosaicking and denoising. ACM Trans. Graph. 35(6): 191:1-191:12 (2016) - [j90]Marco Manzi, Markus Kettunen, Frédo Durand, Matthias Zwicker, Jaakko Lehtinen:
Temporal gradient-domain path tracing. ACM Trans. Graph. 35(6): 246:1-246:9 (2016) - [c72]Zoya Bylinskii, Adrià Recasens, Ali Borji, Aude Oliva, Antonio Torralba, Frédo Durand:
Where Should Saliency Models Look Next? ECCV (5) 2016: 809-824 - [c71]Ioannis Gkioulekas, Kavita Bala, Frédo Durand, Anat Levin, Shuang Zhao, Todd E. Zickler:
Computational Imaging for Inverse Scattering. Measuring, Modeling, and Reproducing Material Appearance 2016: 1 - [c70]Hijung Valentina Shin, Wilmot Li, Frédo Durand:
Dynamic Authoring of Audio with Linked Scripts. UIST 2016: 509-516 - [i3]Zoya Bylinskii, Tilke Judd, Aude Oliva, Antonio Torralba, Frédo Durand:
What do different evaluation metrics tell us about saliency models? CoRR abs/1604.03605 (2016) - [i2]Shuang Zhao, Frédo Durand, Changxi Zheng:
Inverse Diffusion Curves using Shape Optimization. CoRR abs/1610.02769 (2016) - [i1]Ronnachai Jaroensri, Amy Zhao, Guha Balakrishnan, Derek Lo, Jeremy D. Schmahmann, John V. Guttag, Frédo Durand:
A Video-Based Method for Objectively Rating Ataxia. CoRR abs/1612.04007 (2016) - 2015
- [j89]Frédo Durand:
Technical Perspective: The Path to Light Transport. Commun. ACM 58(11): 102 (2015) - [j88]Manohar Srikanth, Kavita Bala, Frédo Durand:
Computational rim illumination of dynamic subjects using aerial robots. Comput. Graph. 52: 142-154 (2015) - [j87]Stefan Popov, Ravi Ramamoorthi, Frédo Durand, George Drettakis:
Probabilistic Connections for Bidirectional Path Tracing. Comput. Graph. Forum 34(4): 75-86 (2015) - [j86]Ioannis Gkioulekas, Anat Levin, Frédo Durand, Todd E. Zickler:
Micron-scale light transport decomposition using interferometry. ACM Trans. Graph. 34(4): 37:1-37:14 (2015) - [j85]Markus Kettunen, Marco Manzi, Miika Aittala, Jaakko Lehtinen, Frédo Durand, Matthias Zwicker:
Gradient-domain path tracing. ACM Trans. Graph. 34(4): 123:1-123:13 (2015) - [j84]Guha Balakrishnan, Frédo Durand, John V. Guttag:
Video diff: highlighting differences between similar actions in videos. ACM Trans. Graph. 34(6): 194:1-194:10 (2015) - [j83]Tzu-Mao Li, Jaakko Lehtinen, Ravi Ramamoorthi, Wenzel Jakob, Frédo Durand:
Anisotropic Gaussian mutations for metropolis light transport through Hessian-Hamiltonian dynamics. ACM Trans. Graph. 34(6): 209:1-209:13 (2015) - [j82]Fadel Adib, Chen-Yu Hsu, Hongzi Mao, Dina Katabi, Frédo Durand:
Capturing the human figure through a wall. ACM Trans. Graph. 34(6): 219:1-219:13 (2015) - [j81]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) - [j80]Michaël Gharbi, Yichang Shih, Gaurav Chaurasia, Jonathan Ragan-Kelley, Sylvain Paris, Frédo Durand:
Transform recipes for efficient cloud photo enhancement. ACM Trans. Graph. 34(6): 228:1-228:12 (2015) - [j79]Abe Davis, Justin G. Chen, Frédo Durand:
Image-space modal bases for plausible manipulation of objects in video. ACM Trans. Graph. 34(6): 239:1-239:7 (2015) - [j78]Hijung Valentina Shin, Floraine Berthouzoz, Wilmot Li, Frédo Durand:
Visual transcripts: lecture notes from blackboard-style lecture videos. ACM Trans. Graph. 34(6): 240:1-240:10 (2015) - [j77]Ling-Qi Yan, Soham Uday Mehta, Ravi Ramamoorthi, Frédo Durand:
Fast 4D Sheared Filtering for Interactive Rendering of Distribution Effects. ACM Trans. Graph. 35(1): 7:1-7:13 (2015) - [c69]Yichang Shih, Dilip Krishnan, Frédo Durand, William T. Freeman:
Reflection removal using ghosting cues. CVPR 2015: 3193-3201 - [c68]Tianfan Xue, Hossein Mobahi, Frédo Durand, William T. Freeman:
The aperture problem for refractive motion. CVPR 2015: 3386-3394 - [c67]Mohamed A. Elgharib, Mohamed Hefeeda, Frédo Durand, William T. Freeman:
Video magnification in presence of large motions. CVPR 2015: 4119-4127 - [c66]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 - [c65]Gaurav Chaurasia, Jonathan Ragan-Kelley, Sylvain Paris, George Drettakis, Frédo Durand:
Compiling high performance recursive filters. High Performance Graphics 2015: 85-94 - [c64]Ronnachai Jaroensri, Sylvain Paris, Aaron Hertzmann, Vladimir Bychkovsky, Frédo Durand:
Predicting Range of Acceptable Photographic Tonal Adjustments. ICCP 2015: 1-9 - [c63]Amy Zhao, Frédo Durand, John V. Guttag:
Estimating a Small Signal in the Presence of Large Noise. ICCV Workshops 2015: 671-676 - [c62]Marco Manzi, Markus Kettunen, Miika Aittala, Jaakko Lehtinen, Frédo Durand, Matthias Zwicker:
Gradient-Domain Bidirectional Path Tracing. EGSR (EI&I) 2015: 65-74 - 2014
- [j76]Soham Uday Mehta, JiaXian Yao, Ravi Ramamoorthi, Frédo Durand:
Factored axis-aligned filtering for rendering multiple distribution effects. ACM Trans. Graph. 33(4): 57:1-57:12 (2014) - [j75]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) - [j74]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) - [j73]Mathieu Aubry, Sylvain Paris, Samuel W. Hasinoff, Jan Kautz, Frédo Durand:
Fast Local Laplacian Filters: Theory and Applications. ACM Trans. Graph. 33(5): 167:1-167:14 (2014) - [j72]Lixin Shi, Haitham Hassanieh, Abe Davis, Dina Katabi, Frédo Durand:
Light Field Reconstruction Using Sparsity in the Continuous Fourier Domain. ACM Trans. Graph. 34(1): 12:1-12:13 (2014) - [c61]Manohar Srikanth, Kavita Bala, Frédo Durand:
Computational rim illumination with aerial robots. CAe@Expressive 2014: 57-66 - [c60]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 - [c59]Neal Wadhwa, Michael Rubinstein, Frédo Durand, William T. Freeman:
Riesz pyramids for fast phase-based video magnification. ICCP 2014: 1-10 - 2013
- [j71]Adrien Bousseau, James P. O'Shea, Frédo Durand, Ravi Ramamoorthi, Maneesh Agrawala:
Gloss perception in painterly and cartoon rendering. ACM Trans. Graph. 32(2): 18:1-18:13 (2013) - [j70]Laurent Belcour, Cyril Soler, Kartic Subr, Nicolas Holzschuch, Frédo Durand:
5D Covariance tracing for efficient defocus and motion blur. ACM Trans. Graph. 32(3): 31:1-31:18 (2013) - [j69]Neal Wadhwa, Michael Rubinstein, Frédo Durand, William T. Freeman:
Phase-based video motion processing. ACM Trans. Graph. 32(4): 80:1-80:10 (2013) - [j68]Jaakko Lehtinen, Tero Karras, Samuli Laine, Miika Aittala, Frédo Durand, Timo Aila:
Gradient-domain metropolis light transport. ACM Trans. Graph. 32(4): 95:1-95:12 (2013) - [j67]Soham Uday Mehta, Brandon Wang, Ravi Ramamoorthi, Frédo Durand:
Axis-aligned filtering for interactive physically-based diffuse indirect lighting. ACM Trans. Graph. 32(4): 96:1-96:12 (2013) - [j66]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) - [j65]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) - [j64]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) - [c58]Guha Balakrishnan, Frédo Durand, John V. Guttag:
Detecting Pulse from Head Motions in Video. CVPR 2013: 3430-3437 - [c57]Jonathan Ragan-Kelley, Connelly Barnes, Andrew Adams, Sylvain Paris, Frédo Durand, Saman P. Amarasinghe:
Halide: a language and compiler for optimizing parallelism, locality, and recomputation in image processing pipelines. PLDI 2013: 519-530 - 2012
- [j63]Frédo Durand:
Where do people draw lines?: technical perspective. Commun. ACM 55(1): 106 (2012) - [j62]Abe Davis, Marc Levoy, Frédo Durand:
Unstructured Light Fields. Comput. Graph. Forum 31(2pt1): 305-314 (2012) - [j61]Jonathan Ragan-Kelley, Andrew Adams, Sylvain Paris, Marc Levoy, Saman P. Amarasinghe, Frédo Durand:
Decoupling algorithms from schedules for easy optimization of image processing pipelines. ACM Trans. Graph. 31(4): 32:1-32:12 (2012) - [j60]Jaakko Lehtinen, Timo Aila, Samuli Laine, Frédo Durand:
Reconstructing the indirect light field for global illumination. ACM Trans. Graph. 31(4): 51:1-51:10 (2012) - [j59]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) - [j58]Alec R. Rivers, Ilan E. Moyer, Frédo Durand:
Position-correcting tools for 2D digital fabrication. ACM Trans. Graph. 31(4): 88:1-88:7 (2012) - [j57]Alec R. Rivers, Andrew Adams, Frédo Durand:
Sculpting by numbers. ACM Trans. Graph. 31(6): 157:1-157:7 (2012) - [j56]Emily Whiting, Hijung Shin, Robert Wang, John Ochsendorf, Frédo Durand:
Structural optimization of 3D masonry buildings. ACM Trans. Graph. 31(6): 159:1-159:11 (2012) - [j55]Ivaylo Boyadzhiev, Kavita Bala, Sylvain Paris, Frédo Durand:
User-guided white balance for mixed lighting conditions. ACM Trans. Graph. 31(6): 200:1-200:10 (2012) - [j54]Pierre-Yves Laffont, Adrien Bousseau, Sylvain Paris, Frédo Durand, George Drettakis:
Coherent intrinsic images from photo collections. ACM Trans. Graph. 31(6): 202:1-202:11 (2012) - [c56]Yichang Shih, Abe Davis, Samuel W. Hasinoff, Frédo Durand, William T. Freeman:
Laser speckle photography for surface tampering detection. CVPR 2012: 33-40 - [c55]Anat Levin, Boaz Nadler, Frédo Durand, William T. Freeman:
Patch Complexity, Finite Pixel Correlations and Optimal Denoising. ECCV (5) 2012: 73-86 - [c54]Forrester Cole, Phillip Isola, William T. Freeman, Frédo Durand, Edward H. Adelson:
Shapecollage: Occlusion-Aware, Example-Based Shape Interpretation. ECCV (3) 2012: 665-678 - 2011
- [j53]Anat Levin, Yair Weiss, Frédo Durand, William T. Freeman:
Understanding Blind Deconvolution Algorithms. IEEE Trans. Pattern Anal. Mach. Intell. 33(12): 2354-2367 (2011) - [j52]Kevin Egan, Florian Hecht, Frédo Durand, Ravi Ramamoorthi:
Frequency analysis and sheared filtering for shadow light fields of complex occluders. ACM Trans. Graph. 30(2): 9:1-9:13 (2011) - [j51]Jonathan Ragan-Kelley, Jaakko Lehtinen, Jiawen Chen, Michael C. Doggett, Frédo Durand:
Decoupled sampling for graphics pipelines. ACM Trans. Graph. 30(3): 17:1-17:17 (2011) - [j50]Jaakko Lehtinen, Timo Aila, Jiawen Chen, Samuli Laine, Frédo Durand:
Temporal light field reconstruction for rendering distribution effects. ACM Trans. Graph. 30(4): 55 (2011) - [j49]Kevin Egan, Frédo Durand, Ravi Ramamoorthi:
Practical filtering for efficient ray-traced directional occlusion. ACM Trans. Graph. 30(6): 180 (2011) - [c53]Vladimir Bychkovsky, Sylvain Paris, Eric Chan, Frédo Durand:
Learning photographic global tonal adjustment with a database of input / output image pairs. CVPR 2011: 97-104 - [c52]Vladimir Bychkovsky, Sylvain Paris, Eric Chan, Frédo Durand:
Learning photographic global tonal adjustment with a database of input/output image pairs. CVPR 2011: 97-104 - [c51]Michael Rubinstein, Ce Liu, Peter Sand, Frédo Durand, William T. Freeman:
Motion denoising with application to time-lapse photography. CVPR 2011: 313-320 - [c50]Anat Levin, Yair Weiss, Frédo Durand, William T. Freeman:
Efficient marginal likelihood optimization in blind deconvolution. CVPR 2011: 2657-2664 - [c49]Jiawen Chen, Sylvain Paris, Jue Wang, Wojciech Matusik, Michael F. Cohen, Frédo Durand:
The video mesh: A data structure for image-based three-dimensional video editing. ICCP 2011: 1-8 - [c48]Jiawen Chen, Ilya Baran, Frédo Durand, Wojciech Jarosz:
Real-time volumetric shadows using 1D min-max mipmaps. SI3D 2011: 39-46 - 2010
- [j48]Stéphane Grabli, Emmanuel Turquin, Frédo Durand, François X. Sillion:
Programmable rendering of line drawing from 3D scenes. ACM Trans. Graph. 29(2): 18:1-18:20 (2010) - [j47]Soonmin Bae, Aseem Agarwala, Frédo Durand:
Computational rephotography. ACM Trans. Graph. 29(3): 24:1-24:15 (2010) - [j46]Alec R. Rivers, Takeo Igarashi, Frédo Durand:
2.5D cartoon models. ACM Trans. Graph. 29(4): 59:1-59:7 (2010) - [j45]Alec R. Rivers, Frédo Durand, Takeo Igarashi:
3D modeling with silhouettes. ACM Trans. Graph. 29(4): 109:1-109:8 (2010) - [j44]Ilya Baran, Jiawen Chen, Jonathan Ragan-Kelley, Frédo Durand, Jaakko Lehtinen:
A hierarchical volumetric shadow algorithm for single scattering. ACM Trans. Graph. 29(6): 178 (2010) - [c47]Samuel W. Hasinoff, Frédo Durand, William T. Freeman:
Noise-optimal capture for high dynamic range photography. CVPR 2010: 553-560 - [c46]Anat Levin, Frédo Durand:
Linear view synthesis using a dimensionality gap light field prior. CVPR 2010: 1831-1838
2000 – 2009
- 2009
- [j43]Nicolas Bonneel, Sylvain Paris, Michiel van de Panne, Frédo Durand, George Drettakis:
Single Photo Estimation of Hair Appearance. Comput. Graph. Forum 28(4): 1171-1180 (2009) - [j42]Pierre Kornprobst, Jack Tumblin, Frédo Durand:
Bilateral Filtering: Theory and Applications. Found. Trends Comput. Graph. Vis. 4(1): 1-74 (2009) - [j41]Sylvain Paris, Frédo Durand:
A Fast Approximation of the Bilateral Filter Using a Signal Processing Approach. Int. J. Comput. Vis. 81(1): 24-52 (2009) - [j40]Cyril Soler, Kartic Subr, Frédo Durand, Nicolas Holzschuch, François X. Sillion:
Fourier depth of field. ACM Trans. Graph. 28(2): 18:1-18:12 (2009) - [j39]Marco da Silva, Frédo Durand, Jovan Popovic:
Linear Bellman combination for control of character animation. ACM Trans. Graph. 28(3): 82 (2009) - [j38]Elmar Eisemann, Sylvain Paris, Frédo Durand:
A visibility algorithm for converting 3D meshes into editable 2D vector graphics. ACM Trans. Graph. 28(3): 83 (2009) - [j37]Kevin Egan, Yu-Ting Tseng, Nicolas Holzschuch, Frédo Durand, Ravi Ramamoorthi:
Frequency analysis and sheared reconstruction for rendering motion blur. ACM Trans. Graph. 28(3): 93 (2009) - [j36]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) - [j35]Emily Whiting, John Ochsendorf, Frédo Durand:
Procedural modeling of structurally-sound masonry buildings. ACM Trans. Graph. 28(5): 112 (2009) - [j34]Adrien Bousseau, Sylvain Paris, Frédo Durand:
User-assisted intrinsic images. ACM Trans. Graph. 28(5): 130 (2009) - [j33]Kartic Subr, Cyril Soler, Frédo Durand:
Edge-preserving multiscale image decomposition based on local extrema. ACM Trans. Graph. 28(5): 147 (2009) - [c45]Peter Cho, Soonmin Bae, Frédo Durand:
Image-based querying of urban photos and videos. AIPR 2009: 1-8 - [c44]Anat Levin, Yair Weiss, Frédo Durand, William T. Freeman:
Understanding and evaluating blind deconvolution algorithms. CVPR 2009: 1964-1971 - [c43]Sara L. Su, Sylvain Paris, Frédo Durand:
QuickSelect: history-based selection expansion. Graphics Interface 2009: 215-221 - [c42]Samuel W. Hasinoff, Kiriakos N. Kutulakos, Frédo Durand, William T. Freeman:
Time-constrained photography. ICCV 2009: 333-340 - [c41]Tilke Judd, Krista A. Ehinger, Frédo Durand, Antonio Torralba:
Learning to predict where humans look. ICCV 2009: 2106-2113 - 2008
- [j32]Aner Ben-Artzi, Kevin Egan, Ravi Ramamoorthi, Frédo Durand:
A precomputed polynomial representation for interactive BRDF editing with global illumination. ACM Trans. Graph. 27(2): 13:1-13:13 (2008) - [j31]Sylvain Paris, Will Chang, Oleg I. Kozhushnyan, Wojciech Jarosz, Wojciech Matusik, Matthias Zwicker, Frédo Durand:
Hair photobooth: geometric and photometric acquisition of real hairstyles. ACM Trans. Graph. 27(3): 30 (2008) - [j30]Jaakko Lehtinen, Matthias Zwicker, Emmanuel Turquin, Janne Kontkanen, Frédo Durand, François X. Sillion, Timo Aila:
A meshless hierarchical representation for light transport. ACM Trans. Graph. 27(3): 37 (2008) - [j29]Alexander Goldberg, Matthias Zwicker, Frédo Durand:
Anisotropic noise. ACM Trans. Graph. 27(3): 54 (2008) - [j28]Eugene Hsu, Tom Mertens, Sylvain Paris, Shai Avidan, Frédo Durand:
Light mixture estimation for spatially varying white balance. ACM Trans. Graph. 27(3): 70 (2008) - [j27]Anat Levin, Peter Sand, Taeg Sang Cho, Frédo Durand, William T. Freeman:
Motion-invariant photography. ACM Trans. Graph. 27(3): 71 (2008) - [c40]Anat Levin, William T. Freeman, Frédo Durand:
Understanding Camera Trade-Offs through a Bayesian Analysis of Light Field Projections. ECCV (4) 2008: 88-101 - [c39]Sylvain Paris, Pierre Kornprobst, Jack Tumblin, Frédo Durand:
A gentle introduction to bilateral filtering and its applications. SIGGRAPH Classes 2008: 1:1-1:50 - 2007
- [j26]Frédo Durand, Richard Szeliski:
Guest Editors' Introduction: Computational Photography. IEEE Computer Graphics and Applications 27(2): 21-22 (2007) - [j25]Paul Green, Jan Kautz, Frédo Durand:
Efficient Reflectance and Visibility Approximations for Environment Map Rendering. Comput. Graph. Forum 26(3): 495-502 (2007) - [j24]Soonmin Bae, Frédo Durand:
Defocus Magnification. Comput. Graph. Forum 26(3): 571-579 (2007) - [j23]Matthias Zwicker, Anthony Vetro, Sehoon Yea, Wojciech Matusik, Hanspeter Pfister, Frédo Durand:
Resampling, Antialiasing, and Compression in Multiview 3-D Displays. IEEE Signal Process. Mag. 24(6): 88-96 (2007) - [j22]Tilke Judd, Frédo Durand, Edward H. Adelson:
Apparent ridges for line drawing. ACM Trans. Graph. 26(3): 19 (2007) - [j21]Jonathan Ragan-Kelley, Charlie Kilpatrick, Brian W. Smith, Doug Epps, Paul Green, Christophe Hery, Frédo Durand:
The lightspeed automatic interactive lighting preview system. ACM Trans. Graph. 26(3): 25 (2007) - [j20]Jan Kautz, Solomon Boulos, Frédo Durand:
Interactive editing and modeling of bidirectional texture functions. ACM Trans. Graph. 26(3): 53 (2007) - [j19]Carsten Dachsbacher, Marc Stamminger, George Drettakis, Frédo Durand:
Implicit visibility and antiradiance for interactive global illumination. ACM Trans. Graph. 26(3): 61 (2007) - [j18]Paul Green, Wenyang Sun, Wojciech Matusik, Frédo Durand:
Multi-aperture photography. ACM Trans. Graph. 26(3): 68 (2007) - [j17]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) - [j16]Jiawen Chen, Sylvain Paris, Frédo Durand:
Real-time edge-aware image processing with the bilateral grid. ACM Trans. Graph. 26(3): 103 (2007) - [c38]Sylvain Paris, Frédo Durand:
A Topological Approach to Hierarchical Segmentation using Mean Shift. CVPR 2007 - [c37]Sylvain Paris, Pierre Kornprobst, Jack Tumblin, Frédo Durand:
A gentle introduction to bilateral filtering and its applications. SIGGRAPH Courses 2007: 1 - 2006
- [j15]Soonmin Bae, Sylvain Paris, Frédo Durand:
Two-scale tone management for photographic look. ACM Trans. Graph. 25(3): 637-645 (2006) - [c36]Sylvain Paris, Frédo Durand:
A Fast Approximation of the Bilateral Filter Using a Signal Processing Approach. ECCV (4) 2006: 568-580 - [c35]Addy Ngan, Frédo Durand:
Statistical Acquisition of Texture Appearance. Rendering Techniques 2006: 31-40 - [c34]Matthias Zwicker, Wojciech Matusik, Frédo Durand, Hanspeter Pfister:
Antialiasing for Automultiscopic 3D Displays. Rendering Techniques 2006: 73-82 - [c33]Tom Mertens, Jan Kautz, Jiawen Chen, Philippe Bekaert, Frédo Durand:
Texture Transfer Using Geometry Correlation. Rendering Techniques 2006: 273-284 - [c32]Addy Ngan, Frédo Durand, Wojciech Matusik:
Image-driven Navigation of Analytical BRDF Models. Rendering Techniques 2006: 399-407 - [c31]Paul Green, Jan Kautz, Wojciech Matusik, Frédo Durand:
View-dependent precomputed light transport using nonlinear Gaussian function approximations. SI3D 2006: 7-14 - [c30]Matthias Zwicker, Wojciech Matusik, Frédo Durand, Hanspeter Pfister, Clifton Forlines:
Antialiasing for automultiscopic 3D displays. SIGGRAPH Sketches 2006: 107 - 2005
- [j14]Maneesh Agrawala, Frédo Durand:
Guest Editors' Introduction: Smart Depiction for Visual Communication. IEEE Computer Graphics and Applications 25(3): 20-21 (2005) - [j13]Ce Liu, Antonio Torralba, William T. Freeman, Frédo Durand, Edward H. Adelson:
Motion magnification. ACM Trans. Graph. 24(3): 519-526 (2005) - [j12]Morgan McGuire, Wojciech Matusik, Hanspeter Pfister, John F. Hughes, Frédo Durand:
Defocus video matting. ACM Trans. Graph. 24(3): 567-576 (2005) - [j11]Wojciech Matusik, Matthias Zwicker, Frédo Durand:
Texture design using a simplicial complex of morphable textures. ACM Trans. Graph. 24(3): 787-794 (2005) - [j10]Frédo Durand, Nicolas Holzschuch, Cyril Soler, Eric Chan, François X. Sillion:
A frequency analysis of light transport. ACM Trans. Graph. 24(3): 1115-1126 (2005) - [c29]Sara L. Su, Frédo Durand, Maneesh Agrawala:
De-emphasis of distracting image regions using texture power maps. APGV 2005: 164 - [c28]Jiawen Chen, Michael I. Gordon, William Thies, Matthias Zwicker, Kari Pulli, Frédo Durand:
A reconfigurable architecture for load-balanced rendering. Graphics Hardware 2005: 71-80 - [c27]Addy Ngan, Frédo Durand, Wojciech Matusik:
Experimental Analysis of BRDF Models. Rendering Techniques 2005: 117-126 - 2004
- [j9]Thouis R. Jones, Frédo Durand, Matthias Zwicker:
Normal Improvement for Point Rendering. IEEE Computer Graphics and Applications 24(4): 53-56 (2004) - [j8]Elmar Eisemann, Frédo Durand:
Flash photography enhancement via intrinsic relighting. ACM Trans. Graph. 23(3): 673-678 (2004) - [c26]Frédo Durand:
Pictorial Techniques and Intrinsic Images. 3DPVT 2004: 706 - [c25]Yann Semet, Una-May O'Reilly, Frédo Durand:
An Interactive Artificial Ant Approach to Non-photorealistic Rendering. GECCO (1) 2004: 188-200 - [c24]Stéphane Grabli, Frédo Durand, François X. Sillion:
Density Measure for Line-Drawing Simplification. PG 2004: 309-318 - [c23]Stéphane Grabli, Emmanuel Turquin, Frédo Durand, François X. Sillion:
Programmable Style for NPR Line Drawing. Rendering Techniques 2004: 33-44 - [c22]Eric Chan, Frédo Durand:
An Efficient Hybrid Shadow Rendering Algorithm. Rendering Techniques 2004: 185-196 - [c21]Thomas Annen, Jan Kautz, Frédo Durand, Hans-Peter Seidel:
Spherical harmonic Gradients for Mid-Range Illumination. Rendering Techniques 2004: 331-336 - [c20]Addy Ngan, Frédo Durand, Wojciech Matusik:
Experimental validation of analytical BRDF models. SIGGRAPH Sketches 2004: 90 - [c19]Thomas Annen, Jan Kautz, Frédo Durand, Hans-Peter Seidel:
Spherical harmonic gradients. SIGGRAPH Sketches 2004: 110 - [c18]Paul Green, Jan Kautz, Wojciech Matusik, Frédo Durand, Henrik Wann Jensen:
Non-linear kernel-based precomputed light transport. SIGGRAPH Sketches 2004: 111 - 2003
- [j7]Xavier Décoret, Frédo Durand, François X. Sillion, Julie Dorsey:
Billboard clouds for extreme model simplification. ACM Trans. Graph. 22(3): 689-696 (2003) - [j6]Thouis R. Jones, Frédo Durand, Mathieu Desbrun:
Non-iterative, feature-preserving mesh smoothing. ACM Trans. Graph. 22(3): 943-949 (2003) - [j5]Daniel Cohen-Or, Yiorgos Chrysanthou, Cláudio T. Silva, Frédo Durand:
A Survey of Visibility for Walkthrough Applications. IEEE Trans. Vis. Comput. Graph. 9(3): 412-431 (2003) - [c17]Xavier Décoret, Frédo Durand, François X. Sillion:
Billboard clouds. SCG 2003: 376 - [c16]Matthieu Cunzi, Joëlle Thollot, Sylvain Paris, Gilles Debunne, Jean-Dominique Gascuel, Frédo Durand:
Dynamic Canvas for Non-Photorealistic Walkthroughs. Graphics Interface 2003: 121-130 - [c15]Eric Chan, Frédo Durand:
Rendering Fake Soft Shadows with Smoothies. Rendering Techniques 2003: 208-218 - 2002
- [j4]Frédo Durand, George Drettakis, Claude Puech:
The 3D visibility complex. ACM Trans. Graph. 21(2): 176-206 (2002) - [j3]Frédo Durand, Julie Dorsey:
Fast bilateral filtering for the display of high-dynamic-range images. ACM Trans. Graph. 21(3): 257-266 (2002) - [c14]Frédo Durand:
An invitation to discuss computer depiction. NPAR 2002: 111-124 - 2001
- [c13]Frédo Durand, Victor Ostromoukhov, Mathieu Miller, François Duranleau, Julie Dorsey:
Decoupling Strokes and High-Level Attributes for Interactive Traditional Drawing. Rendering Techniques 2001: 71-82 - [c12]Henrik Wann Jensen, Frédo Durand, Julie Dorsey, Michael M. Stark, Peter Shirley, Simon Premoze:
A physically-based night sky model. SIGGRAPH 2001: 399-408 - [c11]Byong Mok Oh, Max Chen, Julie Dorsey, Frédo Durand:
Image-based modeling and photo editing. SIGGRAPH 2001: 433-442 - 2000
- [c10]Frédo Durand, Julie Dorsey:
Interactive Tone Mapping. Rendering Techniques 2000: 219-230 - [c9]Frédo Durand, George Drettakis, Joëlle Thollot, Claude Puech:
Conservative visibility preprocessing using extended projections. SIGGRAPH 2000: 239-248
1990 – 1999
- 1999
- [b1]Frédo Durand:
Visibilité tridimensionnelle : étude analytique et apllications. (3D Visibility : Analytical Study and Applications). Joseph Fourier University, Grenoble, France, 1999 - [j2]Frédo Durand, George Drettakis, Claude Puech:
Fast and accurate hierarchical radiosity using global visibility. ACM Trans. Graph. 18(2): 128-170 (1999) - 1998
- [c8]Frédo Durand, George Drettakis, Claude Puech:
Visibility driven hierarchical radiosity. SIGGRAPH Abstracts and Applications 1998: 263 - 1997
- [c7]Frédo Durand, George Drettakis, Claude Puech:
The 3d visibility complex: a unified data-structure for global visibility of scenes of polygons and smooth objects. CCCG 1997 - [c6]Frédo Durand, George Drettakis, Claude Puech:
3D Visibility Made Visibly Simple: An Introduction to the Visibility Skeleton. SCG 1997: 475-476 - [c5]Frédo Durand, George Drettakis, Claude Puech:
The visibility skeleton: a powerful and efficient multi-purpose global visibility tool. SIGGRAPH 1997: 89-100 - 1996
- [j1]Rachel Orti, Stéphane Rivière, Frédo Durand, Claude Puech:
Radiosity for Dynamic Scenes in Flatland with the Visibility Complex. Comput. Graph. Forum 15(3): 237-248 (1996) - [c4]Frédo Durand, Rachel Orti, Stéphane Rivière, Claude Puech:
Radiosity in Flatland Made Visibly Simple: Using the Visibility Complex for Lighting Simulation of Dynamic Scenes in Flatland. SCG 1996: V-11-V-12 - [c3]Frédo Durand, George Drettakis, Claude Puech:
The 3D Visibility Complex: A New Approach to the Problems of Accurate Visibility. Rendering Techniques 1996: 245-256 - [c2]Rachel Orti, Frédo Durand, Stéphane Rivière, Claude Puech:
Using the Visibility Complex for Radiosity Computation. WACG 1996: 177-190 - 1995
- [c1]Frédo Durand, Claude Puech:
The Visibility Complex Made Visibly Simple: An Introduction to 2D Structures of Visibility. SCG 1995: V2
Coauthor Index
William T. Freeman
aka: Bill Freeman
aka: Bill Freeman
[c102] [c101] [i38] [i37] [j122] [c99] [c98] [c97] [d1] [i36] [i35] [i34] [i33] [i32] [i28] [i27] [j117] [c92] [c91] [i24] [i23] [c87] [c84] [i16] [i13] [c81] [c79] [c77] [i12] [j101] [j100] [j99] [j95] [c75] [j81] [c69] [c68] [c67] [c66] [j75] [j74] [c60] [c59] [j69] [j66] [j65] [j64] [j59] [c56] [c55] [c54] [j53] [c51] [c50] [c47] [j36] [c44] [c42] [j27] [c40] [j17] [j13]
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