×

Codimensional non-Newtonian fluids. (English) Zbl 1334.68272


MSC:

68U05 Computer graphics; computational geometry (digital and algorithmic aspects)
68U20 Simulation (MSC2010)
76A05 Non-Newtonian fluids
76M27 Visualization algorithms applied to problems in fluid mechanics
PDFBibTeX XMLCite
Full Text: DOI

References:

[1] Bargteil, A. W., Wojtan, C., Hodgins, J. K., and Turk, G. 2007. A finite element method for animating large viscoplastic flow.ACM Trans. Graph. (SIGGRAPH Proc.) 26, 3.
[2] Batty, C., and Bridson, R. 2008. Accurate viscous free surfaces for buckling, coiling, and rotating liquids. InProceedings of the 2008 ACM SIGGRAPH/Eurographics symposium on computer animation, Eurographics Association, 219–228.
[3] Batty, C., and Houston, B. 2011. A simple finite volume method for adaptive viscous liquids. InProceedings of the 2011 ACM SIGGRAPH/Eurographics Symposium on Computer Animation, ACM, 111–118. · doi:10.1145/2019406.2019421
[4] Batty, C., Uribe, A., Audoly, B., and Grinspun, E. 2012. Discrete viscous sheets.ACM Trans. Graph. (SIGGRAPH Proc.) 31, 4, 113.
[5] Baxter, B., Scheib, V., Lin, M. C., and Manocha, D. 2001. Dab: interactive haptic painting with 3d virtual brushes. InProceedings of the 28th annual conference on Computer graphics and interactive techniques, ACM, 461–468. · doi:10.1145/383259.383313
[6] Baxter, W., Wendt, J., and Lin, M. C. 2004. Impasto: a realistic, interactive model for paint. InProceedings of the 3rd international symposium on Non-photorealistic animation and rendering, ACM, 45–148. · doi:10.1145/987657.987665
[7] Bergou, M., Audoly, B., Vouga, E., Wardetzky, M., and Grinspun, E. 2010. Discrete viscous threads.ACM Trans. Graph. (SIGGRAPH Proc.) 29, 4, 116.
[8] Beverly, C., and Tanner, R. 1992. Numerical analysis of three-dimensional bingham plastic flow.Journal of non-newtonian fluid mechanics 42, 1, 85–115.
[9] Bojsen-Hansen, M., Li, H., and Wojtan, C. 2012. Tracking surfaces with evolving topology.ACM Trans. Graph. 31, 4, 53.
[10] Bridson, R., Fedkiw, R., and Anderson, J. 2002. Robust treatment of collisions, contact and friction for cloth animation.ACM Trans. Graph. (SIGGRAPH Proc.) 21, 3, 594–603.
[11] Carreau, P. J. 1972. Rheological equations from molecular network theories.Transactions of The Society of Rheology (1957–1977) 16, 1, 99–127.
[12] Chu, N. S.-H., and Tai, C.-L. 2005. Moxi: real-time ink dispersion in absorbent paper. InACM Trans. Graph. (SIGGRAPH Proc.), vol. 24, ACM, 504–511.
[13] Chu, N., Baxter, W., Wei, L.-Y., and Govindaraju, N. 2010. Detail-preserving paint modeling for 3d brushes. InProceedings of the 8th International Symposium on Non-Photorealistic Animation and Rendering, ACM, 27–34. · doi:10.1145/1809939.1809943
[14] Clavet, S., Beaudoin, P., and Poulin, P. 2005. Particle-based viscoelastic fluid simulation. InProc. of the 2004 ACM SIGGRAPH/Eurographics Symp. on Comput. Anim., ACM Press, 219–228. · doi:10.1145/1073368.1073400
[15] Curtis, C. J., Anderson, S. E., Seims, J. E., Fleischer, K. W., and Salesin, D. H. 1997. Computer-generated watercolor. InProceedings of the 24th annual conference on Computer graphics and interactive techniques, 421–430.
[16] Da, F., Batty, C., and Grinspun, E. 2014. Multimaterial mesh-based surface tracking.ACM Trans. Graph. 33, 4, 112:1–112:11. · Zbl 06863217
[17] DiVerdi, S., Krishnaswamy, A., Mech, R., and Ito, D. 2013. Painting with polygons: A procedural watercolor engine.Visualization and Computer Graphics, IEEE Transactions on 19, 5, 723–735.
[18] Gerszewski, D., Bhattacharya, H., and Bargteil, A. W. 2009. A point-based method for animating elastoplastic solids. InProceedings of the 2009 ACM SIGGRAPH/Eurographics Symposium on Computer Animation, SCA ’09, 133–138. · doi:10.1145/1599470.1599488
[19] Goktekin, T. G., Bargteil, A. W., and O’Brien, J. F. 2004. A method for animating viscoelastic fluids.ACM Trans. Graph. (SIGGRAPH Proc.) 23, 463–468.
[20] Haase, C. S., and Meyer, G. W. 1992. Modeling pigmented materials for realistic image synthesis.ACM Trans. Graph. 11, 4, 305–335. · Zbl 0774.68094
[21] Irving, G., Teran, J., and Fedkiw, R. 2004. Invertible finite elements for robust simulation of large deformation. InProc. of the ACM SIGGRAPH/Eurographics Symp. on Comput. Anim., 131–140.
[22] Kimmel, R., and Sethian, J. A. 1998. Computing geodesic paths on manifolds.Proceedings of the National Academy of Sciences 95, 15, 8431–8435. · Zbl 0908.65049
[23] Lee, S., Olsen, S. C., and Gooch, B. 2006. Interactive 3d fluid jet painting. InProceedings of the 4th international symposium on Non-photorealistic animation and rendering, ACM, 97–104.
[24] Losasso, F., Shinar, T., Selle, A., and Fedkiw, R. 2006. Multiple interacting liquids.ACM Trans. Graph. (SIGGRAPH Proc.) 25, 3, 812–819.
[25] Losasso, F., Talton, J., Kwatra, N., and Fedkiw, R. 2008. Two-way coupled SPH and particle level set fluid simulation.IEEE TVCG 14, 4, 797–804.
[26] Macklin, M., Müller, M., Chentanez, N., and Kim, T.-Y. 2014. Unified particle physics for real-time applications.ACM Trans. Graph. (SIGGRAPH Proc.) 33, 4, 153:1–153:12. · Zbl 06863258
[27] Martin, S., Kaufmann, P., Botsch, M., Grinspun, E., and Gross, M. 2010. Unified simulation of elastic rods, shells, and solids.ACM Trans. Graph. (SIGGRAPH Proc.) 29, 4, 39:1–39:10.
[28] Oefner, F., 2013. Orchid. http://fabianoefner.com/?portfolio=orchid.
[29] Okumura, Y. 2005.Developing a spectral and colorimetric database of artist paint materials.Master’s thesis, Rochester Institute of Technology, NY.
[30] Paiva, A., Petronetto, F., Lewiner, T., and Tavares, G. 2009. Particle-based viscoplastic fluid/solid simulation.Computer-Aided Design 41, 4, 306–314. · Zbl 1421.76001
[31] Rasmussen, N., Enright, D., Nguyen, D., Marino, S., Sumner, N., Geiger, W., Hoon, S., and Fedkiw, R. 2004. Directable photorealistic liquids. InProc. of the 2004 ACM SIGGRAPH/Eurographics Symp. on Comput. Anim., 193–202.
[32] Reynolds, O. 1886. On the theory of lubrication and its application to mr. beauchamp tower’s experiments, including an experimental determination of the viscosity of olive oil.Phil. Trans. Royal Soc. London 177, 157–234. · JFM 18.0946.04
[33] Savva, N. 2007.Viscous fluid sheets.PhD thesis, Massachusetts Institute of Technology.
[34] Selle, A., Lentine, M., and Fedkiw, R. 2008. A mass spring model for hair simulation.ACM Trans. Graph. (SIGGRAPH Proc.) 27, 3 (Aug.), 64.1–64.11.
[35] Smereka, P. 2003. Semi-implicit level set methods for curvature and surface diffusion motion.J. Sci. Comput. 19, 1, 439–456. · Zbl 1035.65098
[36] Smits, B. 1999. An rgb-to-spectrum conversion for reflectances.Journal of Graphics Tools 4, 4, 11–22.
[37] Stomakhin, A., Schroeder, C., Chai, L., Teran, J., and Selle, A. 2013. A material point method for snow simulation.ACM Trans. Graph. (SIGGRAPH Proc.) 32, 4, 102. · Zbl 1305.68280
[38] Stomakhin, A., Schroeder, C., Jiang, C., Chai, L., Teran, J., and Selle, A. 2014. Augmented mpm for phase-change and varied materials.ACM Transactions on Graphics (TOG) 33, 4, 138. · Zbl 1396.65064
[39] Wang, H., Mucha, P. J., and Turk, G. 2005. Water drops on surfaces. InACM Trans. Graph. (SIGGRAPH Proc.), vol. 24, ACM, 921–929. · doi:10.1145/1186822.1073284
[40] Wicke, M., Ritchie, D., Klingner, B. M., Burke, S., Shewchuk, J. R., and O’Brien, J. F. 2010. Dynamic local remeshing for elastoplastic simulation.ACM Trans. Graph. (SIGGRAPH Proc.) 29, 4, 49:1–49:11.
[41] Wojtan, C., and Turk, G. 2008. Fast viscoelastic behavior with thin features.ACM Trans. Graph. (SIGGRAPH Proc.) 27, 3, 47.
[42] Wojtan, C., Thürey, N., Gross, M., and Turk, G. 2009. Deforming meshes that split and merge. InACM Trans. Graph. (SIGGRAPH Proc.), vol. 28, 76:1–76:10. · doi:10.1145/1576246.1531382
[43] Xu, J., and Zhao, H. 2003. An Eulerian formulation for solving partial differential equations along a moving interface.J. of Sci. Comput. 19, 1, 573–594. · Zbl 1081.76579
[44] Yasuda, K. 1979.Investigation of the analogies between viscometric and linear viscoelastic properties of polystyrene fluids.PhD thesis, Massachusetts Institute of Technology.
[45] Yu, J., Wojtan, C., Turk, G., and Yap, C. 2012. Explicit mesh surfaces for particle based fluids.Comp. Graph. Forum (Eurographics Proc.) 31, 815–824.
[46] Zheng, W., Yong, J.-H., and Paul, J.-C. 2006. Simulation of bubbles. InSCA ’06: Proceedings of the 2006 ACM SIGGRAPH/Eurographics symposium on Computer animation, 325–333.
[47] Zhou, Y., Lun, Z., Kalogerakis, E., and Wang, R. 2013. Implicit integration for particle-based simulation of elastoplastic solids. InComputer Graphics Forum, vol. 32, 215–223.
[48] Zhu, Y., and Bridson, R. 2005. Animating sand as a fluid.ACM Trans. Graph. (SIGGRAPH Proc.) 24, 3, 965–972.
[49] Zhu, B., Quigley, E., Cong, M., Solomon, J., and Fedkiw, R. 2014. Codimensional surface tension flow on simplicial complexes.ACM Trans. Graph. (SIGGRAPH Proc.) 33, 4, 111:1–111:11. · Zbl 1396.65074
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.