- 1.Badler, N. I., Phillips, C. B., Webber, B. L. 1993. SimulatingHumans. Oxford: Oxford University Press.]]Google Scholar
- 2.Baumgarte, J. 1972. Stabilization of Constraints and Integrals of Motion in Dynamical Systems. Computer Methods in Applied Mechanics and Engineering 1:1-16.]]Google ScholarCross Ref
- 3.Breen, D. E., House, D. H., Wozny, M. J., 1994. Predicting the Drape of Woven Cloth Using Interacting Particles. Proceedings of SIGGRAPH, 365-372.]] Google ScholarDigital Library
- 4.Brogan, D. C., Hodgins J. K. 1995. Group Behaviors for Systems with Significant Dynamics. To appear in IEEE/RSJ International Conference on Intelligent Robot and Systems.]] Google ScholarDigital Library
- 5.Brotman, J. S., Netravali, A. N. 1988. Motion Interpolation by Optimal Control. Proceedings of SIGGRAPH, 309-315.]] Google ScholarDigital Library
- 6.Bruderlin, A., Calvert, T. W. 1989. Goal-Directed, Dynamic Animation of Human Walking. Proceedings of SIGGRAPH, 233-242.]] Google ScholarDigital Library
- 7.Carignan, M., Yang, Y., Magnenat-Thalmann, N., Thalmann, D. 1992. Dressing Animated Synthetic Actors with Complex Deformable Clothes. Proceedings of SIGGRAPH, 99-104.]] Google ScholarDigital Library
- 8.Cavagna, G. A., Thys, H., Zamboni, A. 1976. The Sources of External Work in Level Walking and Running.Journal of Physiology 262:639- 657.]]Google Scholar
- 9.Cavanagh, E, Sanderson, D. 1986. The Biomechanics of Cycling: Studies of the Pedaling Mechanics of Elite Pursuit Riders. In Science of Cycling, Edmund R. Burke (ed), Human Kinetics: Champaign, Ill.]]Google Scholar
- 10.Cohen, M. E 1992. Interactive Spacetime Control for Animation. Proceedings of SIGGRAPH, 293-302.]] Google ScholarDigital Library
- 11.Dempster, W. T., Gaughran, G. R. L. 1965. Properties of Body Segments based on Size and Weight. American Journal of Anatomy 120: 33-54.]]Google ScholarCross Ref
- 12.Frohlich, C. 1979. Do springboard divers violate angular momentum conservation? American Journal of Physics 47:583-592.]]Google ScholarCross Ref
- 13.Gregor, R. J., Broker, J. E, Ryan, M. M. 1991. Biomechanics of Cycling Exercise and Sport Science Reviews Williams & Wilkins, Philadelphia, John Holloszy (ed), 19:127-169.]]Google Scholar
- 14.Hodgins, J. K. 1991. Biped Gait Transitions. In Proceedings of the IEEE International Conference on Robotics and Automation, 2092- 2097.]]Google ScholarCross Ref
- 15.Hodgins, J., Raibert, M. H. 1990. Biped Gymnastics. International Journal of Robotics Research 9(2):115-132.]] Google ScholarDigital Library
- 16.Hodgins, J. K., Raibert, M. H. 1991. Adjusting Step Length for Rough Terrain Locomotion. IEEE Transactions on Robotics and Automation 7(3): 289-298.]]Google ScholarCross Ref
- 17.Hodgins, J. K., Sweeney, E K, Lawrence, D. G. 1992. Generating Natural-looking Motion for Computer Animation. Proceedings of Graphics Interface '92,265-272.]] Google ScholarDigital Library
- 18.Ko, H., Badler, N. I. 1993. Straight-line Walking Animation based on Kinematic Generalization that Preserves the Original Characteristics. In Proceedings of Graphics Interface '93.]]Google Scholar
- 19.Laurent, B., Ronan, B., Magnenat-Thalmann, N. 1992. An Interactive Tool for the Design of Human Free-Walking Trajectories. In Proceedings of Computer Animation '92, 87-104.]] Google ScholarDigital Library
- 20.Lien, S., Kajiya, J. T. 1984. A Symbolic Method for Calculating the Integral Properties of Arbitrary Nonconvex Polyhedra. IEEE Computer Graphics and Applications 4(5):35-41.]]Google ScholarCross Ref
- 21.McMahon, T. A. 1984. Muscles, Reflexes, and Locomotion. Princeton: Princeton University Press.]]Google Scholar
- 22.Magnenat-Thalmann, N. 1994. Tailoring Clothes for Virtual Actors, Interacting with Virtual Environments, Edited by MacDonald, L., and Vince, J., John Wiley & Sons, 205-216.]]Google Scholar
- 23.Ngo, J. T., Marks, J. 1993. Spacetime Constraints Revisited. Proceedings of SIGGRAPH, 343-350.]] Google ScholarDigital Library
- 24.O'Brien, J. E, Hodgins, J. K., 1995, Dynamic Simulation of Splashing Fluids. Proceedings of Computer Animation '95, 198-205.]] Google ScholarDigital Library
- 25.Pai, D. 1990. Programming Anthropoid Walking: Control and Simulation. Cornell Computer Science Tech Report TR 90-1178.]]Google Scholar
- 26.Playter, R. R., Raibert, M. H. 1992. Control of a Biped Somersault in 3D. In Proceedings of the IEEE International Conference on Robotics and Automation, 582-589.]]Google ScholarCross Ref
- 27.Raibert, M. H. 1986. Legged Robots That Balance. Cambridge: MIT Press.]] Google ScholarDigital Library
- 28.Raibert, M. H., Hodgins, J. K. 1991. Animation of Dynamic Legged Locomotion. Proceedings of SIGGRAPH, 349-356.]] Google ScholarDigital Library
- 29.Reynolds, C. W. 1987. Flocks, Herds, and Schools: A Distributed Behavioral Model. Proceedings of SIGGRAPH, 25-34.]] Google ScholarDigital Library
- 30.Rosenthal, D. E., Sherman, M. A. 1986. High Performance Multibody Simulations Via Symbolic Equation Manipulation and Kane's Method. Journal of Astronautical Sciences 34(3):223-239.]]Google Scholar
- 31.Sims, K. 1994. Evolving Virtual Creatures. Proceedings of SIG- GRAPH, 15-22.]] Google ScholarDigital Library
- 32.Sims, K. 1994. Evolving 3D Morphology and Behavior by Competition. Artificial Life IV, 28-39.]] Google ScholarDigital Library
- 33.Takei, Y., 1990. Techniques Used by Elite Women Gymnasts Performing the Handspring Vault at the 1987 Pan American Games. International Journal of Sport Biomechanics 6:29-55.]]Google ScholarCross Ref
- 34.Terzopoulos, D., Fleischer, K. 1988. Modeling Inelastic Deformation: Viscoelasticity, Plasticity, Fracture. Proceedings of SIGGRAPH, 269- 278.]] Google ScholarDigital Library
- 35.Wooten, W., Hodgins, J. K. 1995. Simulation of Human Diving. To appear in Proceedings of Graphics Interface '95.]]Google Scholar
- 36.van de Panne M., Fiume, E. 1993. Sensor-Actuator Networks. Proceedings of SIGGRAPH, 335-342.]] Google ScholarDigital Library
- 37.van de Panne M., Fiume, E., Vranesic, Z. 1990. Reusable Motion Synthesis Using State-Space Controllers. Proceedings of SIGGRAPH, 225-234.]] Google ScholarDigital Library
- 38.Witkin, A., Kass, M. 1988. Spacetime Constraints. Proceedings of SIGGRAPH, 159-168.]] Google ScholarDigital Library
Index Terms
- Animating human athletics
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