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A hierarchical approach to interactive motion editing for human-like figures

Publication: SIGGRAPH '99: Proceedings of the 26th annual conference on Computer graphics and interactive techniquesJuly 1999 Pages 39–48https://doi.org/10.1145/311535.311539
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SIGGRAPH '99: Proceedings of the 26th annual conference on Computer graphics and interactive techniques
A hierarchical approach to interactive motion editing for human-like figures
Pages 39–48
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References

  1. 1.R. H. Bartels, J. C. Beatty, and B. Barsky. An Introduction to Splines for Use in Computer Graphics and Geometric Modeling. Morgan Kaufmann, 1979.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  2. 2.L. S. Brotman and A. N. Netravali. Motion interpolation by optimal control. Computer Graphics (Proceedings of SIG- GRAPH 88), 22(4):309-315, August 1988.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  3. 3.A. Bruderlin and L. Williams. Motion signal processing. Computer Graphics (Proceedings of SIGGRAPH 95), 29:97- 104, August 1995.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  4. 4.A. Certain, J. Popovi6, T. DeRose, T. Duchamp, D. Salesin, and W. Stuetzle. Interactive multiresolution surface viewing. Computer Graphics (Proceedings of SIGGRAPH 96), 30:97- 115, August 1996.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  5. 5.M. F. Cohen. Interactive spacetime control for animation. Computer Graphics (Proceedings of SIGGRAPH 92), 26(2):293-302, July 1992.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  6. 6.M. Eck, T. DeRose, T. Duchamp, H. Hoppe, M. Lounsbery, and W. Stuetzle. Multiresolution analysis of arbitrary meshes. Computer Graphics (Proceedings of SIGGRAPH 95), 29:173-182, August 1995.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  7. 7.G. Farin. Curves and Sulfaces for Computer Aided Geometric Design- A Practical Guide. Academic Press, 4th edition, 1997.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  8. 8.A. Finkelstein and D. H. Salesin. Multiresolution curves. Computer Graphics (Proceedings of SIGGRAPH 94), 28:261-268, July 1994.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  9. 9.D. R. Forsey and R. H. Bartels. Hierarchical B-spline refinement. Computer Graphics (Proceedings of SIGGRAPH 88), 22(4):205-212, August 1988.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  10. 10.D.R. Forsey and R. H. Bartels. Surface fitting with hierarchical splines. ACM Transactions of Graphics, 14(2):134-161, April 1995.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  11. 11.M. Girard and A. A. Maciejewski. Computational modeling for the computer animation of legged figures. Computer Graphics (Proceedings of SIGGRAPH 85), pages 263-270, July 1985.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  12. 12.M. Gleicher. Motion editing with spacetime constraints. In Proceedings of Symposium on Interactive 3D Graphics, pages 139-148, 1997.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  13. 13.M. Gleicher. Retargetting motion to new characters. Computer Graphics (Proceedings of SIGGRAPH 98), 32:33-42, July 1998.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  14. 14.S. Guo and J. Roberg6. A high-level control mechanism for human locomotion based on parametric frame space interpolation. In Proceedings of Computer Animation and Simulation '96, Eurographics Animation Workshop, pages 95-107. Springer-Verlag, 1996.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  15. 15.W. M. Hsu, J. F. Hughes, and H. Kaufman. Direct manipulation of free-form deformations. Computer Graphics (Proceedings of SIGGRAPH 92), 26:177-184, July 1992.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  16. 16.W. Kahan. Lectures on computational aspects of geometry. Unpublished manuscripts, 1983.]]Google ScholarGoogle Scholar
  17. 17.M. J. Kim, M. S. Kim, and S. Y. Shin. A general construction scheme for unit quaternion curves with simple high order derivatives. Computer Graphics (Proceedings of SIGGRAPH 95), 29:369-376, August 1995.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  18. 18.Y. Koga, K. Kondo, J. Kuffer, and J. Latombe. Planning motions with intentions. Computer Graphics (Proceedings of SIGGRAPH 94), 28:395-408, July 1994.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  19. 19.J. U. Korein and N. I. Badler. Techniques for generating the goal-directed motion of articulated structures. IEEE CG&A, pages 71-81, Nov. 1982.]]Google ScholarGoogle Scholar
  20. 20.S. Lee, K.-Y. Chwa, S. Y. Shin, and G. Wolberg. Image metamorphosis using snakes and free-form deformations. Computer Graphics (Proceedings of SIGGRAPH 95), 29:439-448, August 1995.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  21. 21.S. Lee, G. Wolberg, and S. Y. Shin. Scattered data interpolation with multilevel b-splines. IEEE Transactions on Visualization and Computer Graphics, 3(3):228-244, 1997.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  22. 22.Z. Liu, S. G. Gortler, and M. E Cohen. Hierarchical spacetime control. Computer Graphics (Proceedings of SIGGRAPH 94), pages 35-42, July 1994.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  23. 23.M. Lounsbery, T. D. DeRose, and J. Warren. Multiresolution analysis for surfaces of arbitrary topological type. ACM Transactions on Graphics, 16(1):34-73, 1997.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  24. 24.B. Paden. Kinematics and Connvl Robot Manipulators. PhD thesis, University of California, Berkeley, 1986.]]Google ScholarGoogle Scholar
  25. 25.J. C. Platt and A. H. Barr. Constraint methods for flexible models. Computer Graphics (Proceedings of SIGGRAPH 88), 22(4):279-288, August 1988.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  26. 26.W. H. Press, Saul A. Teukolsky, W. T. Vetterling, and B. R Flannery. Numerical Recipes in C: The Art of Scientific Computing. Cambridge University Press, second edition, 1992.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  27. 27.C. Rose, M. F. Cohen, and B. Bodenheimer. Verbs and Adverbs: Multidimensional motion interpolation. IEEE CG&A, 18(5):32-40, October 1998.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  28. 28.C. Rose, B. Guenter, B. Bodenheimer, and M. E Cohen. Efficient generation of motion transitions using spacetime constraints. Computer Graphics (Proceedings of SIGGRAPH 96), 30:147-154, August 1996.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  29. 29.E J. M. Schmitt, B. A. Barsky, and W. Du. An adaptive subdivision method for surface-fitting from sampled data. Computer Graphics (Proceedings of SIGGRAPH 86), 20(4):179- 188, August 1986.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  30. 30.R Schr6der and W. Sweldens. Spherical wavelets: Efficiently representing functions on the sphere. Computer Graphics (Proceedings of SIGGRAPH 95), 29:161-172, August 1995.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  31. 31.K. Shoemake. Animating rotation with quaternion curves. Computer Graphics (Proceedings of SIGGRAPH 85), 19:245-254, 1985.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  32. 32.D. Tolani and N. I. Badler. Real-time inverse kinematics of the human arm. Presence, 5(4):393-401, 1996.]]Google ScholarGoogle ScholarDigital LibraryDigital Library
  33. 33.M. Unuma, K. Anjyo, and R. Takeuchi. Fourier principles for emotion-based human figure animation. Computer Graphics (Proceedings of SIGGRAPH 95), 29:91-96, August 1995.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  34. 34.W. Welch and A. Witkin. Variational surface modeling. Computer Graphics (Proceedings of SIGGRAPH 92), 26(2):157- 166, July 1992.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  35. 35.D. J. Wiley and J. K. Hahn. Interpolation synthesis for articulated figure motion. In Proceedings of lEEE Virtual Reality Annual International Symposium '97, pages 157-160. IEEE Computer Society Press, 1997.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  36. 36.A. Witkin and M. Kass. Spacetime constraints. Computer Graphics (Proceedings of SIGGRAPH 88), 22(4):159-168, August 1988.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  37. 37.A. Witkin and Z. Popovid. Motion warping. Computer Graphics (Proceedings of SIGGRAPH 95), 29:105-108, August 1995.]] Google ScholarGoogle ScholarDigital LibraryDigital Library
  38. 38.J. Zhao and N. I. Badler. Inverse kinematics positioning using nonlinear programming for highly articulated figures. ACM Transactions on Graphics, 13(4):313-336, 1994.]] Google ScholarGoogle ScholarDigital LibraryDigital Library

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