Supplemental Material
Available for Download
- 1.BERGERON, P., AND LACHAPELLE, P. Controlling facial expressions and body movements in the computer-generated animated short: Tony de Peltrie. In Computer Graphics (SIC- GRAPH '85), Course Notes: Techniques for Animating Characters (July 1985).Google Scholar
- 2.BRUDERLIN, A., AND CALVERT, T. Interactive animation of personalized human locomotion. In Graphics Intelface '93, Proceedings (May 1993), pp. 17-23.Google Scholar
- 3.BURT, E Multiresolution method for image merging. In Computer Graphics (SIGGRAPH '86), Course Notes: Advanced Image Processing (August 1986).Google Scholar
- 4.BURY, E, AND ADELSON, E. A multiresolution spline with application to image merging. ACM Transactions on Graphics 2, 4 (October 1983), 217-236. Google ScholarDigital Library
- 5.CALVERT, T., BRUDERLIN, A., DILL, J., SCHIPHORST, T., AND WELMAN, C. Desktop animation of multiple human figures. IEEE Computer Graphics & Applications 13, 3 (1993), 18-26. Google ScholarDigital Library
- 6.CASSELL, J. ET AL. Animated conversation: Rule-based generation of facial expression, gesture & spoken intonation for multiple conversational agents. In Computer Graphics (SIC- GRAPH '94 Proceedings) (July 1994), pp. 413-420. Google ScholarDigital Library
- 7.CHUI, C. K. An Introduction to Wavelets, Series: Wavelet Analysis and its Applications. Academic Press, Inc., 1992. Google ScholarDigital Library
- 8.COHEN, M. Interactive spacetime control for animation. In Computer Graphics (SIGGRAPH '92 Proceedings) (July 1992), vol. 26, pp. 293-302. Google ScholarDigital Library
- 9.DEMORI, R., AND PROBST, D. Handbook of Pattern Recognition and Image Processing. Academic Press, 1986, ch. Computer Recognition of Speech.Google Scholar
- 10.FUCHS, H., KEDEM, Z., AND USELTON, S. Optimal surface reconstruction from planar contours. Communications of the ACM 10, 10 (1977), 693-702. Google ScholarDigital Library
- 11.Guo, S., ROBERGE, J., AND GRACE, T. Controlling movement using parametric frame space interpolation. In Computer Animation '93, Proceedings (1993), pp. 216-227.Google Scholar
- 12.ISAACS, P., AND COHEN, M. Controlling dynamic simulation with kinematic constraints, behavior functions and inverse dynamics. In Computer Graphics (SIGGRAPH '87 Proceedings) (1987), vol. 21, pp. 215-224. Google ScholarDigital Library
- 13.KASS, M. Condor: Constraint-based dataflow. In Computer Graphics (SIGGRAPH '92 Proceedings) (1992), vol. 26, pp. 321-330. Google ScholarDigital Library
- 14.KOCHANEK, D., AND BARTELS, R. Interpolating splines with local tension, continuity and bias control. In Computer Graphics (SIGGRAPH '84 Proceedings) (1984), vol. 18, pp. 33-41. Google ScholarDigital Library
- 15.KOGA, Y., KONDO, K., KUFFNER, J., AND LATOMBE, J.-C. Planning motions with intentions. In Computer Graphics (SIGGRAPH '94 Proceedings) (July 1994), pp. 395-408. Google ScholarDigital Library
- 16.LEBRUN, M. Digital waveshaping synthesis. Journal of the Audio Engineering Society 27, 4 (1979), 250-266.Google Scholar
- 17.LITWINOWICZ, E Inkwell: A 2 1/2-D animation system. In Computer Graphics (SIGGRAPH '91 Proceedings) (1991), vol. 25, pp. 113-122. Google ScholarDigital Library
- 18.LIU, Z., GORTLER, S., AND COHEN, M. Hierarchical spacetime control. In Computer Graphics (SIGGRAPH '94 Proceedings) (July 1994), pp. 35-42. Google ScholarDigital Library
- 19.MEYER, K., APPLEWHITE, H., AND BIOCCA, F. A survey of posistion trackers. Presence: Teleoperators and Virtual Environments 1, 2 (Spring 1992), 173-200. Google ScholarDigital Library
- 20.ODGEN, J., ADELSON, E., BERGEB, J., AND BURT, E Pyramidbased computer graphics. RCA Engineer 30, 5 (1985), 4-15.Google Scholar
- 21.PARKE, F. ET AL. State of the art in facial animation. In Computer Graphics (SIGGRAPH '90), Course Notes (August 1990).Google Scholar
- 22.PHILLIPS, C., AND BADLER, N. Interactive behaviors for bipedal articulated figures. In Computer Graphics (SIC- GRAPH '91 Proceedings) (1991), vol. 25, pp. 359-362. Google ScholarDigital Library
- 23.RASURE, J., AND KUBICA, S. The Khoros application development environment. Tech. rep., Khoral Research, Inc., 4212 Courtney NE, Albuquerque, NM, 87108, USA, 1993.Google Scholar
- 24.SEDERBERG, T., AND GREENWOOD, E. A physically-based approach to 2-D shape blending. In Computer Graphics (SIC- GRAPH '92 Proceedings) (1992), vol. 26, pp. 26-34. Google ScholarDigital Library
- 25.SERRA, B., AND BERTHOLD, M. Subpixel contour matching using continuous dynamic programming. IEEE Computer Vision and Pattern Recognition (1994), 202-207.Google ScholarCross Ref
- 26.STEIN, C., AND HITCHNER, H. The multiresolution dissolve. SMPTE Journal (December 1988), 977-984.Google Scholar
- 27.STURMAN, D. A discussion on the development ofmotion control systems. In Graphics Interface '86, Tutorial on Computer Animation (1986).Google Scholar
- 28.UNUMA, M., AND TAKEUCHI, R. Generation of human motion with emotion. In Computer Animation '93, Proceedings (1993), pp. 77-88.Google Scholar
- 29.VELHO, L. Piecewise Descriptions of Implicit Sulfaces and Solids. PhD thesis, University of Toronto, Computer Science, 1994. Google ScholarDigital Library
- 30.WILHELMS, J. Virya-a motion control editor for kinematic and dynamic aniamtion. In Graphics Intelface '86, Proceedings (1986), pp. 141-146. Google ScholarDigital Library
- 31.WITKIN, A., AND KASS, M. Spacetime constraints. In Computer Graphics (SIGGRAPH '88 Proceedings) (1988), vol. 22, pp. 159-168. Google ScholarDigital Library
- 32.WITKIN, A., TERZOPOULUS, D., AND KASS, M. Signal matching through scale space. International Journal of Computer Vision (1987), 133-144.Google ScholarCross Ref
- 33.ZELTZER, D. Towards an integrated view of 3-D computer character animation. In Graphics Interface '85, Proceedings (1985), pp. 105-115. Google ScholarDigital Library
Index Terms
- Motion signal processing
Recommendations
Motion Cyclification by Time x Frequency Warpin
SIBGRAPI '99: Proceedings of the XII Brazilian Symposium on Computer Graphics and Image Processingg Fernando Wagner da Silva, Luiz Velho, Jonas Gomes and Siome GoldensteinThis paper presents a new algorithm for the cyclification of 1D signals, based on a time x frequency warping. The main goal is to preserve the basic characteristics of the signal, ...
Spiking signal processing: Principle and applications in control system
AbstractThis paper introduces an innovative interpretation of spiking signal processing (SSP) and proposes applications in control system. Taking the firing rate as the coding principle employed by biological neurons, we have transformed ...
Enabling Signal Processing over Data Streams
SIGMOD '17: Proceedings of the 2017 ACM International Conference on Management of DataInternet of Things applications analyze the data coming from large networks of sensor devices using relational and signal processing operations and running the same query logic over groups of sensor signals. To support such increasingly important ...
Comments