2008 |
61 | EE | Anat Levin,
William T. Freeman,
Frédo Durand:
Understanding Camera Trade-Offs through a Bayesian Analysis of Light Field Projections.
ECCV (4) 2008: 88-101 |
60 | EE | 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): (2008) |
59 | EE | 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): (2008) |
58 | EE | Alexander Goldberg,
Matthias Zwicker,
Frédo Durand:
Anisotropic noise.
ACM Trans. Graph. 27(3): (2008) |
57 | EE | 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): (2008) |
56 | EE | Eugene Hsu,
Tom Mertens,
Sylvain Paris,
Shai Avidan,
Frédo Durand:
Light mixture estimation for spatially varying white balance.
ACM Trans. Graph. 27(3): (2008) |
55 | EE | Anat Levin,
Peter Sand,
Taeg Sang Cho,
Frédo Durand,
William T. Freeman:
Motion-invariant photography.
ACM Trans. Graph. 27(3): (2008) |
2007 |
54 | EE | Sylvain Paris,
Frédo Durand:
A Topological Approach to Hierarchical Segmentation using Mean Shift.
CVPR 2007 |
53 | EE | Jiawen Chen,
Sylvain Paris,
Frédo Durand:
Real-time edge-aware image processing with the bilateral grid.
ACM Trans. Graph. 26(3): 103 (2007) |
52 | EE | Tilke Judd,
Frédo Durand,
Edward H. Adelson:
Apparent ridges for line drawing.
ACM Trans. Graph. 26(3): 19 (2007) |
51 | EE | 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) |
50 | EE | Jan Kautz,
Solomon Boulos,
Frédo Durand:
Interactive editing and modeling of bidirectional texture functions.
ACM Trans. Graph. 26(3): 53 (2007) |
49 | EE | Carsten Dachsbacher,
Marc Stamminger,
George Drettakis,
Frédo Durand:
Implicit visibility and antiradiance for interactive global illumination.
ACM Trans. Graph. 26(3): 61 (2007) |
48 | EE | Paul Green,
Wenyang Sun,
Wojciech Matusik,
Frédo Durand:
Multi-aperture photography.
ACM Trans. Graph. 26(3): 68 (2007) |
47 | EE | 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) |
46 | EE | Paul Green,
Jan Kautz,
Frédo Durand:
Efficient Reflectance and Visibility Approximations for Environment Map Rendering.
Comput. Graph. Forum 26(3): 495-502 (2007) |
45 | EE | Soonmin Bae,
Frédo Durand:
Defocus Magnification.
Comput. Graph. Forum 26(3): 571-579 (2007) |
44 | EE | Frédo Durand,
Richard Szeliski:
Guest Editors' Introduction: Computational Photography.
IEEE Computer Graphics and Applications 27(2): 21-22 (2007) |
2006 |
43 | EE | Sylvain Paris,
Frédo Durand:
A Fast Approximation of the Bilateral Filter Using a Signal Processing Approach.
ECCV (4) 2006: 568-580 |
42 | EE | Paul Green,
Jan Kautz,
Wojciech Matusik,
Frédo Durand:
View-dependent precomputed light transport using nonlinear Gaussian function approximations.
SI3D 2006: 7-14 |
41 | EE | Soonmin Bae,
Sylvain Paris,
Frédo Durand:
Two-scale tone management for photographic look.
ACM Trans. Graph. 25(3): 637-645 (2006) |
2005 |
40 | EE | Sara L. Su,
Frédo Durand,
Maneesh Agrawala:
De-emphasis of distracting image regions using texture power maps.
APGV 2005: 164 |
39 | EE | 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 |
38 | EE | Addy Ngan,
Frédo Durand,
Wojciech Matusik:
Experimental Analysis of BRDF Models.
Rendering Techniques 2005: 117-126 |
37 | EE | 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) |
36 | EE | Ce Liu,
Antonio B. Torralba,
William T. Freeman,
Frédo Durand,
Edward H. Adelson:
Motion magnification.
ACM Trans. Graph. 24(3): 519-526 (2005) |
35 | EE | Morgan McGuire,
Wojciech Matusik,
Hanspeter Pfister,
John F. Hughes,
Frédo Durand:
Defocus video matting.
ACM Trans. Graph. 24(3): 567-576 (2005) |
34 | EE | Wojciech Matusik,
Matthias Zwicker,
Frédo Durand:
Texture design using a simplicial complex of morphable textures.
ACM Trans. Graph. 24(3): 787-794 (2005) |
33 | EE | Maneesh Agrawala,
Frédo Durand:
Guest Editors' Introduction: Smart Depiction for Visual Communication.
IEEE Computer Graphics and Applications 25(3): 20-21 (2005) |
2004 |
32 | EE | Frédo Durand:
Pictorial Techniques and Intrinsic Images.
3DPVT 2004: 706 |
31 | EE | Yann Semet,
Una-May O'Reilly,
Frédo Durand:
An Interactive Artificial Ant Approach to Non-photorealistic Rendering.
GECCO (1) 2004: 188-200 |
30 | EE | Stéphane Grabli,
Frédo Durand,
François X. Sillion:
Density Measure for Line-Drawing Simplification.
Pacific Conference on Computer Graphics and Applications 2004: 309-318 |
29 | | Eric Chan,
Frédo Durand:
An Efficient Hybrid Shadow Rendering Algorithm.
Rendering Techniques 2004: 185-196 |
28 | | Stéphane Grabli,
Emmanuel Turquin,
Frédo Durand,
François X. Sillion:
Programmable Style for NPR Line Drawing.
Rendering Techniques 2004: 33-44 |
27 | | Thomas Annen,
Jan Kautz,
Frédo Durand,
Hans-Peter Seidel:
Spherical harmonic Gradients for Mid-Range Illumination.
Rendering Techniques 2004: 331-336 |
26 | EE | Elmar Eisemann,
Frédo Durand:
Flash photography enhancement via intrinsic relighting.
ACM Trans. Graph. 23(3): 673-678 (2004) |
25 | EE | Thouis R. Jones,
Frédo Durand,
Matthias Zwicker:
Normal Improvement for Point Rendering.
IEEE Computer Graphics and Applications 24(4): 53-56 (2004) |
2003 |
24 | | Matthieu Cunzi,
Joëlle Thollot,
Sylvain Paris,
Gilles Debunne,
Jean-Dominique Gascuel,
Frédo Durand:
Dynamic Canvas for Non-Photorealistic Walkthroughs.
Graphics Interface 2003: 121-130 |
23 | | Eric Chan,
Frédo Durand:
Rendering Fake Soft Shadows with Smoothies.
Rendering Techniques 2003: 208-218 |
22 | EE | Xavier Décoret,
Frédo Durand,
François X. Sillion:
Billboard clouds.
Symposium on Computational Geometry 2003: 376 |
21 | EE | Xavier Décoret,
Frédo Durand,
François X. Sillion,
Julie Dorsey:
Billboard clouds for extreme model simplification.
ACM Trans. Graph. 22(3): 689-696 (2003) |
20 | EE | Thouis R. Jones,
Frédo Durand,
Mathieu Desbrun:
Non-iterative, feature-preserving mesh smoothing.
ACM Trans. Graph. 22(3): 943-949 (2003) |
19 | EE | 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) |
2002 |
18 | EE | Frédo Durand:
An invitation to discuss computer depiction.
NPAR 2002: 111-124 |
17 | EE | Frédo Durand,
Julie Dorsey:
Fast bilateral filtering for the display of high-dynamic-range images.
SIGGRAPH 2002: 257-266 |
16 | EE | Frédo Durand,
George Drettakis,
Claude Puech:
The 3D visibility complex.
ACM Trans. Graph. 21(2): 176-206 (2002) |
15 | EE | Frédo Durand,
Julie Dorsey:
Fast bilateral filtering for the display of high-dynamic-range images.
ACM Trans. Graph. 21(3): 257-266 (2002) |
2001 |
14 | | 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 |
13 | EE | Henrik Wann Jensen,
Frédo Durand,
Julie Dorsey,
Michael M. Stark,
Peter Shirley,
Simon Premoze:
A physically-based night sky model.
SIGGRAPH 2001: 399-408 |
12 | EE | Byong Mok Oh,
Max Chen,
Julie Dorsey,
Frédo Durand:
Image-based modeling and photo editing.
SIGGRAPH 2001: 433-442 |
2000 |
11 | | Frédo Durand,
Julie Dorsey:
Interactive Tone Mapping.
Rendering Techniques 2000: 219-230 |
10 | EE | Frédo Durand,
George Drettakis,
Joëlle Thollot,
Claude Puech:
Conservative visibility preprocessing using extended projections.
SIGGRAPH 2000: 239-248 |
1999 |
9 | EE | Frédo Durand,
George Drettakis,
Claude Puech:
Fast and accurate hierarchical radiosity using global visibility.
ACM Trans. Graph. 18(2): 128-170 (1999) |
1997 |
8 | | 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 |
7 | EE | Frédo Durand,
George Drettakis,
Claude Puech:
The visibility skeleton: a powerful and efficient multi-purpose global visibility tool.
SIGGRAPH 1997: 89-100 |
6 | EE | Frédo Durand,
George Drettakis,
Claude Puech:
3D Visibility Made Visibly Simple: An Introduction to the Visibility Skeleton.
Symposium on Computational Geometry 1997: 475-476 |
1996 |
5 | | Frédo Durand,
George Drettakis,
Claude Puech:
The 3D Visibility Complex: A New Approach to the Problems of Accurate Visibility.
Rendering Techniques 1996: 245-256 |
4 | EE | 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.
Symposium on Computational Geometry 1996: V-11-V-12 |
3 | | Rachel Orti,
Frédo Durand,
Stéphane Rivière,
Claude Puech:
Using the Visibility Complex for Radiosity Computation.
WACG 1996: 177-190 |
2 | EE | 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) |
1995 |
1 | EE | Frédo Durand,
Claude Puech:
The Visibility Complex Made Visibly Simple: An Introduction to 2D Structures of Visibility.
Symposium on Computational Geometry 1995: V2 |