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References (10)
-
C. Tycowicz, Christian Schulz, H. Seidel, K. Hildebrandt (2013)
An efficient construction of reduced deformable objectsACM Transactions on Graphics (TOG), 32
-
M. Sussman, A. Almgren, J. Bell, P. Colella, L. Howell, M. Welcome (1997)
An Adaptive Level Set Approach for Incompressible Two-Phase FlowsJournal of Computational Physics, 148
-
D. Ebert (1997)
Volumetric modeling with implicit functions: a cloud is born -
Frank Losasso, F. Gibou, Ronald Fedkiw (2004)
Simulating water and smoke with an octree data structureACM SIGGRAPH 2004 Papers
-
Bo Zhu, Wenlong Lu, Matthew Cong, Byungmoon Kim, Ronald Fedkiw (2013)
A new grid structure for domain extensionACM Transactions on Graphics (TOG), 32
-
V. Azevedo, M. Neto (2013)
Efficient Smoke Simulation on Curvilinear GridsComput. Graph. Forum, 32
-
Bryan Feldman, James O'Brien, B. Klingner, Tolga Göktekin (2005)
Fluids in deforming meshes -
R. Miyazaki, Y. Dobashi, T. Nishita (2002)
Simulation of Cumuliform Clouds Based on Computational Fluid Dynamics -
J. Stam (1999)
Stable fluidsProceedings of the 26th annual conference on Computer graphics and interactive techniques
-
Y. Dobashi, Y. Matsuda, Tsuyoshi Yamamoto, T. Nishita (2008)
A Fast Simulation Method Using Overlapping Grids for Interactions between Smoke and Rigid ObjectsComputer Graphics Forum, 27
- Publisher
- Springer Singapore
- Copyright
- © Springer Nature Singapore Pte Ltd. 2019
- ISBN
- 978-981-13-2849-7
- Pages
- 109 –118
- DOI
- 10.1007/978-981-13-2850-3_8
- Publisher site
- See Chapter on Publisher Site
Abstract
[We propose an efficient simulation method for clouds by using an adaptive grid structure to cloud simulation. We apply a grid structure proposed by Zhu et al. (ACM Trans Graph 32:63:1–63:2, 2012, [2]) to cloud simulation. This grid is an extension of a uniform grid and dynamically extends the cells surrounding a fine uniform grid while maintaining fine resolution about the regions of interest. Our method keeps track of the cloud distribution and automatically determines the region of interest to generate the optimal grid structure. Our method achieves two times faster computation on average compared to the simulation using a uniform grid.]
Published: Nov 28, 2018
Keywords: Cloud simulation; Adaptive grid; Atmospheric fluid dynamics