1. Srikumar Ramalingam Department of Computer Science University of California, Santa Cruz srikumar@cse.ucsc.edu 3D Reconstruction from a Pair of Images

2. - Problem Definition - Previous Work - Solution - Experiments and Results - Conclusion and Future work Overview

3. Problem Definition Image-1 Image-2 3D Texture-Mapped Model Perspective View of the Model

4. Previous Work -Zhao, Aggarwal, Mandal and Vemuri, “3D Shape Reconstruction from Multiple Views ”, Handbook of Image and Video Processing, pages 243-257, Al Bovik, 2000. -Gang Xu and Zhengyou Zhang, “Epipolar Geometry in Stereo, Motion and Object Recognition”, Kluwer Academic Publishers, 1996. -Zhang and Faugeras, “3D Dyanamic Scene Analysis-A Stereo Based Approach”, Springer-Verlag, 1992. -Zhang, Deriche, Faugeras and Luong, “A Robust Technique for Matching Two Uncalibrated Images through the Recovery of the Unknown Epipolar Geometry”, INRIA Research Report, 1994. -Zhang, “A New Multistage Approach to Motion and Structure Estimation: From Essential Parameters to Euclidean Motion Via Fundamental Matrix”, INRIA Research Report, 1996.

5. Previous Work Zhang, “Determining the Epipolar Geometry and its Uncertainity: A Review”, INRIA Research Report, July 1996. Zhang, “A Flexible New Technique for Camera Calibration”, Technical Report, Microsoft Research, 1998. Deriche and Giraudon, “A Computational Approach for Corner and Vertex Detection”, INRIA Research Report, 1992.

6. Solution -Feature Detection -Getting Initial Set of Matches -Medium Robust Correspondence -Strong Robust Correspondence -Camera Calibration -3D Reconstruction

7. Feature Detection : Harris Corner Detection

8. Establishing Initial Set of Matches

9. Ambiguities in the Matches

10. Robust 1-1 Correspondence -Medium Robust Matches -Relaxation Techniques -Strong Robust Matches -Epipolar Geometry

11. Relaxation Techniques

12. - Winner-take-all - Loser-take-nothing - Some-winners-take-all - ( 1 – Max_Strength / Sec_Max_St) Relaxation Strategies End Result : No Ambiguities but False Matches

13. -Epipolar Geometry and Constraint -Least Median of Squares Strong Robust Estimation using Epipolar Geometry

14. Epipolar Geometry Fundamental Matrix (F) –3x3 matrix, which relates the corresponding points Point corresponding to m lies on its epipolar line l m on the other image

15. Least Median of Squares – Removal of Outliers - 8 Matches required for estimating F matrix - Different combinations (m) of 8 matches selected - Least median of squares algorithm is applied If r i < Threshold, the match is discarded.

16. 3D Reconstruction Problem is solved for Conventional Baseline Stereo System X = b (xl+xr) / (2d) Y = b (yl+yr) / (2d) Z = bf / d

17. Intrinsic Parameters (5) Extrinsic Parameters (6) f – focal length3 rotational parameters, 3 translational parameters u0, v0 – Center Intrinsic Matrix(A) ku - unit length along x direction kv – unit length along y direction Angle between x and y direction m new (u,v) = A m old (x,y) Need to conduct an experiment to calibrate the camera Intrinsic and Extrinsic Parameters

18. 3D Reconstruction- Triangulation Robust Correspondence + Intrinsic Parameters  Extrinsic Parameters Robust Correspondence + Camera Parameters -  3D Points Camera Matrix Extrinsic Parameters

19. Reconstructed 3D Model

20. Implementaton Pipeline Matlab Implementations -Harris Corner Detection Algorithm (Deriche1992, Zhang1994) -Initial Set of Matches Establishment (Zhang1994, Xu1996) -Medium Set of Matches using Relaxation Techniques (Zhang1994, Xu1996) -Strong Set of Matches using Epipolar Geometry (Zhang1994, Xu1996) -Camera Calibration Experiment (Zhang1998) -3D Points Reconstruction from Robust Matches and Camera Parameters (Zhang1994, Zhang1996, Xu1996) -3D Polygonal Model Reconstruction (Delaunay Triangulation) - Texture Mapping (OpenGL/C)

21. Standard Data Sets- Corner marked

22. Robust 1-1 Correspondence shown

23. Color Coding for Z Coordinates after 3D Reconstruction

24. 3D Delaunay Triangulation

25. 3D Texture Mapped Model – On Rotation

26. Real Data Sets and Results Baskin Engineering Parking Scene – Two Images

27. Feature Points using Corner Detection process

28. Robust Set of Matches

29. Color Coding for Z Coordinates after 3D Reconstruction Red-Max, Green – Intermediate, Blue – Min depths

30. 3D Delaunay Triangulation

31. Texture Mapped 3D Model of the Scene Perspective View of the Texture Mapped 3D Model

32. Camera Calibration Experiment -Checker pattern -3 images taken in different orientations -Corners are marked -Computation of camera parameters

33. Conclusion and Future Work -Increasing the number of feature points - Multiple Images - Alternate Algorithms - 3D Reconstruction of Urban Scenes (Faugeras 1995) - Registration within GIS Data

34. Questions?