Cited By
View all- Zhu JLi SCai RHao ZHuang GSheng BWu E(2020)Animating turbulent fluid with a robust and efficient high‐order advection methodComputer Animation and Virtual Worlds10.1002/cav.195131:4-5Online publication date: 27-Aug-2020
Adaptive level set for fluid surface tracking
Pages 113 - 116
Abstract
We introduce an adaptive hybrid level set surface tracking for fluid simulation in this paper. To improve the accuracy of the convectional level set method, we propose a method that combines the higher accuracy interpolation and octree grid to improve the accuracy while still maintain good efficiency. Adaptive gradient-augmented level set is adopted for higher accuracy interpolation and two strategies are proposed to guide the building of the octree structure. We demonstrate our method with several level set tests, and couple it to several existing fluid simulators. The results show that our method facilitates significant improvements in accuracy and efficiency, and is effective for free surface fluid simulation in capturing fluid details.
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References
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Bargteil, A. W., Goktekin, T. G., O'brien, J. F., and Strain, J. A. 2006. A semi-lagrangian contouring method for fluid simulation. ACM Trans. Graph. 25, 1 (Jan.), 19--38.
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Enright, D., Fedkiw, R., Ferziger, J., and Mitchell, I. 2002. A hybrid particle level set method for improved interface capturing. J. Comput. Phys. 183, 1 (Nov.), 83--116.
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Enright, D., Marschner, S., and Fedkiw, R. 2002. Animation and rendering of complex water surfaces. ACM Trans. Graph. 21, 3 (July), 736--744.
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Fedkiw, R., Stam, J., and Jensen, H. W. 2001. Visual simulation of smoke. In Proceedings of the 28th Annual Conference on Computer Graphics and Interactive Techniques, ACM, New York, NY, USA, SIGGRAPH '01, 15--22.
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Foster, N., and Fedkiw, R. 2001. Practical animation of liquids. In Proceedings of the 28th annual conference on Computer graphics and interactive techniques, ACM, New York, NY, USA, SIGGRAPH '01, 23--30.
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Kim, B., Liu, Y., Llamas, I., and Rossignac, J. 2005. Flowfixer: Using bfecc for fluid simulation. In Proceedings of the First Eurographics Conference on Natural Phenomena, Eurographics Association, Aire-la-Ville, Switzerland, Switzerland, NPH'05, 51--56.
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Kim, D., Song, O.-Y., and Ko, H.-S. 2008. A semi-lagrangian cip fluid solver without dimensional splitting. Comput. Graph. Forum 27, 2, 467--475.
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Kolomenskiy, D., Nave, J.-C., and Schneider, K. 2015. Adaptive gradient-augmented level set method with multiresolution error estimation. Journal of Scientific Computing, 1--25.
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Index Terms
- Adaptive level set for fluid surface tracking
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Information
Published In
November 2015
237 pages
ISBN:9781450339902
DOI:10.1145/2821592
- Conference Chairs:
- Qinping Zhao,
- Daniel Thalmann,
- Editor:
- Stephen N. Spencer,
- Program Chairs:
- Enhua Wu,
- Ming C. Lin,
- Lili Wang
Copyright © 2015 ACM.
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Publication History
Published: 13 November 2015
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- Short-paper
Funding Sources
- NSFC
- RGC
- University of Macau
Conference
VRST '15: 21th ACM Symposium on Virtual Reality Software and Technology
November 13 - 15, 2015
Beijing, China
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Overall Acceptance Rate 66 of 254 submissions, 26%
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Cited By
View all- Zhu JLi SCai RHao ZHuang GSheng BWu E(2020)Animating turbulent fluid with a robust and efficient high‐order advection methodComputer Animation and Virtual Worlds10.1002/cav.195131:4-5Online publication date: 27-Aug-2020
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