- 1 ARMSTRONG, B., AND GREEN, M. The dynamics of articulated rigid bodies for purposes of animation. In Proceedings of Graphics Interface (May 1986), Computer Graphics Society, pp. 407-415.]]Google Scholar
- 2 BARAFF, D. Analytical models for dynamic simulation of non-penetrating rigid bodies. A CM Computer Graphics ~3, 3 (July 1989), 223-232.]] Google ScholarDigital Library
- 3 BARTELS, R. H., BEATTY, J. C., AND BARSKY, B. A. An Introduction to Splines .for Use in Computer Graphics and Geometric Modeling. Morgan Kaui!mann, 1979.]] Google ScholarDigital Library
- 4 BARZEL, R., AND BARR, A. H. A modeling system based on dynamic constraints. In Proceedings of SIG- GRAPH'88 (Atlanta, Georgia, August 1-5, 1988) (August 1988), ACM, pp. 179-188.]] Google ScholarDigital Library
- 5 BOEHM, W. Inserting new knots into b-spline curves. IPC Business Press 1~, 4 (July 1980), 199-201.]]Google ScholarCross Ref
- 6 BROTMAN, L. S., AND NETRAVALI, A. N. Motion interpolation by optimal control. In Proceedings of SIG. GRAPH'88 (Atlanta, Georgia, August 1-5, 1988) (Aug. 1988), vol. 22, ACM, pp. 309-315.]] Google ScholarDigital Library
- 7 BRUDERLn~, A., AND CALVERT, T. Goal-directed, dynamic animation of human walking. A CM Computer Graphics ~3, 3 (July 1989), 233-422.]] Google ScholarDigital Library
- 8 CHAR, B. W., GEDDES, K. O., GONNET, G. H., MON- AGAN, M. B., AND WATT, S. M. MAPLE Reference Mqnualj_Fiflh edition. Waterloo Maple Publishing, Waterloo, Ontario, 1988.]]Google Scholar
- 9 COHEN, E., LYCHE, T., AND RIESENFELD, R. Discrete b-splines and subdivision techniques in computeraided geometric design and computer graphics. Computer Graphics and Image Processing 15, 2 (October 1980), 87-111.]]Google Scholar
- 10 CRAIG, J. J. Introduction to Robotics. Addison-Wesley, Reading, MA, 1986.]] Google ScholarDigital Library
- 11 DRISKILL, H. Symbolic kinematic and dynamic equations of motion. LISP code (1990).]]Google Scholar
- 12 FAux, I., Ar~) PRATT, M. Computational Geometry for Design and Manufacture. Ellis Horwood Limited, 1979.]] Google ScholarDigital Library
- 13 FLETCHER, R. Practical Methods of Optimization, Vol. i and ~. John Wiley and Sons, 1980.]] Google ScholarDigital Library
- 14 GmL, P. E., AND MURRAY, W. Numerical Methods}or Constrained Optimization. Academic Press, 1974.]]Google Scholar
- 15 GIRARD, M. Interactive design of 3d computeranimated legged animal motion. IEEE Computer Graphics and Applications 7, 6 (June 1987), 39-51.]] Google ScholarDigital Library
- 16 HAHN, J. Realistic animation of rigid bodies. In Proceedings of SIGGRAPH'88 (Atlanta, Georgia, August 1-5, 1988) (August 1988), ACM, pp.299-308.]] Google ScholarDigital Library
- 17 HIMMELI3LAU, D. M. Applied Nonlinear Programming. McGraw-Hill, New York, 1972.]]Google Scholar
- 18 ISAACS, P. M., ANt) Com~N, M. F. Controlling dynamic simulation with kinematic constraints, behavior functions, and inverse dynamics. In Proceedings of SIG- GRAPH'87 (Anaheim, California, July ~7-31, 1987) (July 1987), ACM, pp. 215-224.]] Google ScholarDigital Library
- 19 ISAACS, P. M., AND COHEN, M. F. Mixed methods for kinematic constraints in dynamic figure animation. The Visual Computer $ (1988).]]Google Scholar
- 20 KOREIN, J. U., AND BADLER, N. I. Techniques for generating goal-directed motion of articulated structures. IEEE Computer Graphics and Applications $, 6 (Nov. 1982), 71-8~.]]Google ScholarDigital Library
- 21 LE~., P., WEI, S., ZHAO, J., AND BADLER, N. I. Strength guided motion. In Proceedings of SIG- GRAPH'90 (Dallas, Texas, August 6-10, 1990) (August 1990), ACM, pp. 253-262.]] Google ScholarDigital Library
- 22 MAGNENAT-THALMANN, AND THALMANN. Computer Animation: Theory and Practice. Springer Verlag, 1985.]] Google ScholarDigital Library
- 23 McKENNA, M., AND ZEt,TZEP., D. Dynamic simulation of autonomous legged locomotion. In Proceedings of SIGGRAPH'90 (Dallas, Texas, August 6-10, 1990) (August 1990), ACM, pp. 29-38.]] Google ScholarDigital Library
- 24 MILLER, G. S. P. The motion dynamics of snakes and worms. In Proceedings o.f SIGGRAPH'88 (Atlanta, Georgia, August 1-5, 1988)(August 1988), ACM, pp. 169-173.]] Google ScholarDigital Library
- 25 MORTENSON, M. E. Geometric Modeling. John Wiley and Sons, New York, 1985.]] Google ScholarDigital Library
- 26 PAPALAMBROS, P. Y., AND WILDE, D. J. Principles .of Optimal Design. Cambridge University Press, Cambridge, England, 1988.]] Google ScholarDigital Library
- 27 PENTLAND, A., AND WILLIAMS, J. Good vibrations: Modal dynamics for graphics and animatioIt. In Proceedings of SIGGRAPH'89 (Boston, Mass., July 31- Aug ~, 1989) (July 1989), ACM, pp. 215-222.]] Google ScholarDigital Library
- 28 PHILLmS, C. B., AND BADLER, N. I. Interactive behaviors for bipedal articulated figures, vol. 25, ACM, pp. 359-362.]] Google ScholarDigital Library
- 29 PHILLIPS, C. B., ZHAO, J., AND BADLER, N. 1. Interact!ve real-time articulated figure manipulation using multiple kinematic constraints. In Proceedings of Symposium on Interactive 3D Graphics (Snowbird, Utah, March, 1990) (Mar. 1990), vol. 24, ACM, pp. 245-250.]] Google ScholarDigital Library
- 30 PLAIT, J., AND BAR_R, A. H. Constraint methods for flexible models. In Proceedings of SIGGRAPH'88 (Atlanta, Georgia, August 1-5, 1988)(August 1988), ACM, pp. 279-288.]] Google ScholarDigital Library
- 31 PRESS, W. H., AND Ft, ANNERY, B. Numerical Recipes: The Art of Scientific Computing. Cambridge University Press, 1986.]] Google ScholarDigital Library
- 32 RAmERT, M. H., AND HODGnUS, J. K. Animation of dynamic legged locomotion, siggraph91 J, 25 (1991), 349-358.]] Google ScholarDigital Library
- 33 VAN DE PANNE, M., F~, E., AND VRANESIC, Z. Reusable motion synthesis using state-space controllers. In Proceedings of SIGGRAPH'90 (Dallas, Texas, August 6-10, 1990) (August 1990), ACM, pp. 225-234.]] Google ScholarDigital Library
- 34 WILHELMS, J. Using dynamic analysis for realistic animation of articulated bodies. IEEE Computer Graphics and Applications 7, 6 (June 1987), 12-27.]] Google ScholarDigital Library
- 35 WITKIN, A., FLEISCHER, K., AND BARR, A. Energy constraints on parameterized models. In Proceedings of SIGGRAPH'87 (Anaheim, California, July 27-31, 1987) (July 1987), vol. 21, ACM, pp. 225-232.]] Google ScholarDigital Library
- 36 WlTKIN, A., AND KASS, M. Spacetime constraints. In Proceedings of SIGGRAPH'88 (Atlanta, Georgia, August 1-5, 1988) (July 1988), ACM, pp. 159-168.]] Google ScholarDigital Library
- 37 WITKtN, A., AND WELCH, W. Fast animation and control of nonrigid structures. In Proceedings of SIG- GRAPH'90 (Dallas, Texas, August 6-10, 1990) (August 1990), ACM, pp. 243-252.]] Google ScholarDigital Library
Index Terms
- Interactive spacetime control for animation
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