Large Mesh Deformation Using the Volumetric Graph Laplacian

1. Large Mesh Deformation Using theVolumetric Graph Laplacian Kun Zhou Jin Huang* John Snyder^ Xinguo LiuHujun Bao* Baining Guo Heung-Yeung ShumMicrosoft Research Asia *Zhejiang University^Microsoft Research

2. Mesh Deformation • Smooth geometry • Freeform deformation [Barr84, Singh98, Bendels03] • Energy minimization [Welch94, Taubin95, Botsch04] • Detailed geometry • Multi-resolution editing [Zorin97, Kobbelt98, Guskov99] • Differential domain methods: • Poisson mesh editing [Yu04] • Laplacian surface editing [Sorkine04, Lipman05]

3. Large Mesh Deformation • Challenge to existing techniques • Local self-intersection, unnatural volume change Bending Twisting

4. Large Mesh Deformation • Challenge to existing techniques • Local self-intersection, unnatural volume change Poisson Mesh Editing VGL

5. Large Mesh Deformation • Challenge to existing techniques • Local self-intersection, unnatural volume change Poisson Mesh Editing VGL

6. Large Deformation: Why Difficult? • Differential domain methods [Yu04,Sorkine04]  Uniform error distribution using least-squares optimization  Only surface details, volume ignored • Displacement volumes [Botsch03]  Volumetric constraints  Iterative relaxation produces artifacts Solution: Volumetric Constraints & Least-Squares Optimization

7. F F’ Poisson Mesh Editing Step 1: Specify control curve Step 2: Edit control curve

8. Poisson Mesh Editing Step 3: Propagate local frame transformations Step 4: Solve Poisson equation

9. Surface Details & Laplacian

10. Surface Details & Laplacian

11. Surface Details & Laplacian

12. Volumetric Details & Laplacian

13. Volumetric Details & Laplacian

14. Quadric Energy Function Surface Details Position Constraints Volumetric Details

15. Deformation Using VGL • Construct the volumetric graph • Compute Laplacian coordinates • Compute and apply local transformation • Solve the sparse linear system

16. Volumetric Graph Construction

17. Volumetric Graph Construction • Construct an inner shell

18. Volumetric Graph Construction • Embed both the mesh and shell in a lattice

19. Volumetric Graph Construction • Build edge connections

20. Volumetric Graph Construction • Simplify and smooth the graph Not Tetrahedral Mesh

21. Deformation Comparison Laplacian surface [Sorkine04] Poisson mesh [Yu04] VGL

22. Deformation Comparison Poisson mesh [Yu04] Laplacian surface [Sorkine04] VGL

23. Deformation Comparison Original model Poisson mesh VGL

24. Deformation Interface • 3D space manipulation [Yu04] • Tedious and require artistic skill • 2D sketch-based interface • Modeling: Teddy[Igarashi99] • Editing: [Zelinka04, Kho05, Nealen05] “Teddy-like” deformation: intuitive and easy to use

25. 2D Sketch-based Deformation

26. Deformation Retargeting

27. Deformation Retargeting

28. Results

29. Results

30. Results

31. Results

32. Results

33. Conclusion • Volumetric graph Laplacian (VGL) • Volumetric constraints • Least squares minimization • No tetrahedral mesh construction • 2D sketch-based deformation system • “Teddy-like” deformation system • Cartoon deformation retargeting

34. Future Work • Anchor-based deformation • Dynamic connectivity • Automatic contour tracking

35. Acknowledgement • Cartoons from Disney Feature Animation and Dongyu Cao • 3D models from Stanford, MIT, Cyberware • Xin Sun, Jianwei Han • Steve Lin, Bo Zhang • NSFC and 973 Program of China

36. Thank You !