Presentation is loading. Please wait.

Presentation is loading. Please wait.

Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Real-time depth up-sampling Hylke Buisman and Derek Chan Supervisor:

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Real-time depth up-sampling Hylke Buisman and Derek Chan Supervisor:"— Presentation transcript:

1 Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Real-time depth up-sampling Hylke Buisman and Derek Chan Supervisor: Christian Theobalt 03-17-2008

2 Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Problem description Primary goals –Super resolution and noise removal Input: low-res depth map, high-res color image Output: 3D mesh of up-sampled and denoised depth –Optimize for (near) real-time processing Data samples

3 Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Approach Bilateral filter affects only areas of similar color

4 Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Approach Joint bilateral up-sampling (Kopf et al.): Implementations explored: –Bilateral grid (Paris & Durand 2007) –Separable kernel approximation

5 Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Results +=

6 Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Results NaiveOptimized Naïve (Color) Bilateral grid (No color) Separable Kernel (Color) GPU 5 s1 s0.3 s0.6 s75 ms Runtimes (800 x 600 image) + = Input Result

7 Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Hidden slide Hylke - 50% –Alignment: Extrinsics calibration Homography between depthmap and color image –CPU implementation JBU Separable kernel –Bilateral grid Derek - 50% –Alignment: 3d point cloud tesselation Reprojection into high-res camera –Median filter –GPU implementation of upsampling –3D results with texture

Download ppt "Designing a 3D Video Camera Hylke Buisman and Derek Chan Supervisor: Christian Theobalt Real-time depth up-sampling Hylke Buisman and Derek Chan Supervisor:"

Similar presentations

Eikonal Rendering: View Renderer

Eikonal Rendering: View Renderer
Point-based Graphics for Estimated Surfaces

Point-based Graphics for Estimated Surfaces
A Robust Super Resolution Method for Images of 3D Scenes Pablo L. Sala Department of Computer Science University of Toronto.

A Robust Super Resolution Method for Images of 3D Scenes Pablo L. Sala Department of Computer Science University of Toronto.
Automatic Color Gamut Calibration Cristobal Alvarez-Russell Michael Novitzky Phillip Marks.

Automatic Color Gamut Calibration Cristobal Alvarez-Russell Michael Novitzky Phillip Marks.
Improving resolution and depth of astronomical observations (via modern mathematical methods for image analysis) M. Castellano, D. Ottaviani, A. Fontana,

Improving resolution and depth of astronomical observations (via modern mathematical methods for image analysis) M. Castellano, D. Ottaviani, A. Fontana,
CS448f: Image Processing For Photography and Vision Sharpening.

CS448f: Image Processing For Photography and Vision Sharpening.
Week 11 - Wednesday.  Image based effects  Skyboxes  Lightfields  Sprites  Billboards  Particle systems.

Week 11 - Wednesday.  Image based effects  Skyboxes  Lightfields  Sprites  Billboards  Particle systems.
Accelerating Spatially Varying Gaussian Filters Jongmin Baek and David E. Jacobs Stanford University.

Accelerating Spatially Varying Gaussian Filters Jongmin Baek and David E. Jacobs Stanford University.
Stereo Many slides adapted from Steve Seitz. Binocular stereo Given a calibrated binocular stereo pair, fuse it to produce a depth image Where does the.

Stereo Many slides adapted from Steve Seitz. Binocular stereo Given a calibrated binocular stereo pair, fuse it to produce a depth image Where does the.
Kernel-based tracking and video patch replacement Igor Guskov

Kernel-based tracking and video patch replacement Igor Guskov
M.S. Student, Hee-Jong Hong

M.S. Student, Hee-Jong Hong
Layered Solid Texture Synthesis from a Single 2D Exemplar Kenshi Takayama 1 Takeo Igarashi 1,2 1 The University of Tokyo 2 JST/ERATO.

Layered Solid Texture Synthesis from a Single 2D Exemplar Kenshi Takayama 1 Takeo Igarashi 1,2 1 The University of Tokyo 2 JST/ERATO.
Stereo.

Stereo.
Gaussian KD-Tree for Fast High-Dimensional Filtering A. Adams, N. Gelfand, J. Dolson, and M. Levoy, Stanford University, SIGGRAPH 2009.

Gaussian KD-Tree for Fast High-Dimensional Filtering A. Adams, N. Gelfand, J. Dolson, and M. Levoy, Stanford University, SIGGRAPH 2009.
Filtering CSE P 576 Larry Zitnick

Filtering CSE P 576 Larry Zitnick
3D Multi-view Reconstruction Young Min Kim Karen Zhu CS 223B March 17, 2008.

3D Multi-view Reconstruction Young Min Kim Karen Zhu CS 223B March 17, 2008.
LYU0603 A Generic Real-Time Facial Expression Modelling System Supervisor: Prof. Michael R. Lyu Group Member: Cheung Ka Shun (05521661) Wong Chi Kin (05524554)

LYU0603 A Generic Real-Time Facial Expression Modelling System Supervisor: Prof. Michael R. Lyu Group Member: Cheung Ka Shun ( ) Wong Chi Kin ( )
High-quality Scanning using Time-Of-Flight Depth Superresolution 17nd March 2008 Sebastian Schuon Prepared for: Final Presentation.

High-quality Scanning using Time-Of-Flight Depth Superresolution 17nd March 2008 Sebastian Schuon Prepared for: Final Presentation.
High-Quality Video View Interpolation

High-Quality Video View Interpolation
Hardware-Based Nonlinear Filtering and Segmentation using High-Level Shading Languages I. Viola, A. Kanitsar, M. E. Gröller Institute of Computer Graphics.

Hardware-Based Nonlinear Filtering and Segmentation using High-Level Shading Languages I. Viola, A. Kanitsar, M. E. Gröller Institute of Computer Graphics.

Similar presentations

Ads by Google