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http://dx.doi.org/10.7236/IJASC2013.2.2.2

Real Examples based Natural Phenomena Synthesis  

An, HyangA (Global School of Media, Soongsil University)
Seo, Yong-Ho (Dept. of Intelligent Robot Engineering, Mokwon University)
Park, Jinho (Global School of Media, Soongsil University)
Publication Information
International journal of advanced smart convergence / v.2, no.2, 2013 , pp. 7-9 More about this Journal
Abstract
Current physics-based simulation is an important tool in the fluid animation. However some problems require a new change to current research trends which depend only on the simulation. The ultimate goal of this project is to obtain information of flow example, analyze an example through machine learning and the novel fluid animation reconfigure without physical simulation.
Keywords
Example-based; Physical simulation; Computational efficiency; Vector potential; Tensor;
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1 J. Barbic and D. James, "Real-Time subspace integration for St. Venant-Kirchhoff deformable models", ACM Transactions on Graphics (TOG), v.24 n.3, July 2005
2 R. Bridson, J. Houriham, and M. Nordenstam, "Curl-noise procedural fluid flow", ACM Transactions on Graphics(TOG), vol 26, issue 3, July 2007.
3 M. Carlson, P. Mucha, and G. Tuck, "Rigid fluid: Animating the interplay between rigid bodies and fluid", ACM Transactions on Graphics(TOG), vol 23, issue 3, August 2004
4 N. Foster and R. Fedkiw, "Practical animation of liquids", In Proceedings of ACM SIGGRAPH 2001, ACM Press, 23--30.
5 T. Hawkins, P. Einarsson, and P. Debevec, "Acquisition of time-varying participating media", ACM Transactions on Graphics(TOG), vol 24, issue 3, July 2005.
6 G. Irving, E. Guendelman, F. Losasso, and R. Fedkiw, "Efficient simulation of large bodies of water by coupling two and three dimensional techniques", ACM Transactions on Graphics(TOG), vol 25, issue 3, July 2006.
7 N. Kang, J. Park, J. Noh, and S. Y. Shin, "A Hybrid Approach to Multiple Fluid Simulation using Volume Fractions", Computer Graphics Forum, vol 29, issue 2, 2010
8 L. Kovar, M. Gleicher, and F. Pighin, "Motion graphs", ACM Transactions on Grpahics(TOG), v.22 n.3, July 2002
9 J. Kruger and R. Westermann, "Linear algebra operators for GPU implementation of numerical algorithms", ACM Transactions on Graphics (TOG), v.22 n.3, July 2003
10 J. Lee, J. Chai, P. Reitsma, and J. Hodgins, "Interactive control of avatars animated with human motion data", ACM Transactions on Graphics (TOG), v.21 n.3, July 2002
11 F. Losasso, F. Gibou, and R. Fedkiw, "Simulating water and smoke with an octree data structure", In ACM SIGGRAPH 2004, 457--462.
12 Korea Creative Contents Acency, Smart contents market research report,2011
13 B. Solenthaler and R. Pajarola, "Predictive-corrective incompressible SPH", ACM Transactions on Graphics(TOG), vol 28, issue 3, August 2009.
14 J. Stam, "Stable fluids", In Proceedings of ACM SIGGRAPH 1999.
15 A. Treuille, Y. Lee, and Z. Popovic, "Near-optimal character animation with continuous control", ACM Transactions on Graphics(TOG), vol 26, issue 3, July 2007
16 M. Vasilescu and D. Terzopoulos, "TensorTextures: multilinear image-based rendering", ACM Transactions on Graphics(TOG), vol 23, issue 3, August 2004
17 A. Treuille, A. Lewis, and Z. Popovic, "Model reduction for real-time fluids", ACM Transactions on Graphics(TOG), vol 25, issue 3, July 2006