Abstract
Wrinkle simulation can reflect the texture and simulation effect of clothes. In this paper, we realize a new cloth wrinkle enhancement method based on the coarse mesh simulation. Firstly, we extend the deformation tensor to generate the mesh vertex stretch tensor, so as to obtain one measuring factor for the three-dimensional cloth mesh vertex deformation. Then, we introduce a new method to extract the wrinkle baseline in the 2D mesh which is stretching from 3D coarse mesh and mapping it to 3D coarse mesh. Finally, we use the convolution surface as framework to simulate the wrinkle shape. We also propose and realize the wrinkle surface adjustment method. Experiment result proves the effectiveness of this method, namely this method can significantly improve the cloth wrinkle effect based on the coarse mesh simulation.
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Zurdo, J., Brito, J., Otaduy, M.: Animating wrinkles by example on non-skinned cloth. IEEE Trans. Vis. Comput. Graph. 19(1), 148–158 (2013)
Rohmer, D., Popa, T., Cani, M.P., et al.: Animation wrinkling: augmenting coarse cloth simulations with realistic-looking wrinkles. ACM Trans. Graph. (TOG) 29(6), 157 (2010)
Blinn, J.F.: Simulation of wrinkled surfaces. In: SIGGRAPH, pp. 286–292 (1978)
Larboulette, C., Cani, M.P.: Real-time dynamic wrinkles. In: The Computer Graphics International, pp. 522–525. IEEE Computer Society (2004)
Volino, P., Magnenat-Thalmann, N.: Fast geometrical wrinkles on animated surfaces. In: Seventh International Conference in Central Europe on Computer Graphics and Visualization (WSCG) (1999)
Hadap, S., Bangerter, E., Volino, P., et al.: Animating wrinkles on clothes. In: IEEE Visualization, pp. 175–182 (1999)
Kono, H., Genda, E.: Wrinkle generation model for 3d facial expression. In: ACM SIGGRAPH Sketches & Applications, p.1. ACM (2003)
Decaudin, P., Julius, D., Wither, J., et al.: Virtual garments: a fully geometric approach for clothing design. Comput. Graph. Forum 25(3), 625–634 (2006)
Wang, Y., Wang, C.C., Yuen, M.M.: Fast energy-based surface wrinkle modeling. Comput. Graph. 30(1), 111–125 (2006)
Li, L., Liu, F., Li, C., et al.: Realistic wrinkle generation for 3D face modeling based on automatically extracted curves and improved shape control functions. Comput. Graph. 35(1), 175–184 (2011)
Cutler, L.D., Gershbein, R., Wang, X.C., et al.: An art-directed wrinkle system for CG character clothing. In: Proceedings of the ACM SIGGRAPH/Eurographics Symposium on Computer Animation, pp. 117–125. ACM (2005)
Liu, T., Bargteil, A.W., O’Brien, J.F.: Fast simulation of mass-spring systems. ACM Trans. Graph. (TOG) 32(6), 214 (2013)
Talpaert, Y.: Tensor Analysis and Continuum Mechanics. Kluwer Academic Publishers, Dordrecht (2002)
Sheffer, A., Lévy, B., Mogilnitsky, M., et al.: ABF++: fast and robust angle based flattening. ACM Trans. Graph. (TOG) 24(2), 311–330 (2007)
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This work was supported by grant No.61272346 from NSFC (National Natural Science Foundation of China).
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Jing, M., He, B., Lv, Y. (2016). Cloth Wrinkle Enhancement Based on the Coarse Mesh Simulation. In: Chang, C., Chiari, L., Cao, Y., Jin, H., Mokhtari, M., Aloulou, H. (eds) Inclusive Smart Cities and Digital Health. ICOST 2016. Lecture Notes in Computer Science(), vol 9677. Springer, Cham. https://doi.org/10.1007/978-3-319-39601-9_26
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DOI: https://doi.org/10.1007/978-3-319-39601-9_26
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