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Inflatable Models
引用本文:Ling Li and Vasily Volkov. Inflatable Models[J]. 计算机科学技术学报, 2006, 21(2): 154-158. DOI: 10.1007/s11390-006-0154-1
作者姓名:Ling Li and Vasily Volkov
作者单位:Department of Computing, Curtin University of Technology, Perth, WA 6845, Australia
摘    要:A physically-based model is presented for the simulation of a new type of deformable objects-inflatable objects, such as shaped balloons, which consist of pressurized air enclosed by an elastic surface. These objects have properties inherent in both 3D and 2D elastic bodies, as they demonstrate the behaviour of 3D shapes using 2D formulations. As there is no internal structure in them, their behaviour is substantially different from the behaviour of deformable solid objects. We use one of the few available models for deformable surfaces, and enhance it to include the forces of internal and external pressure. These pressure forces may also incorporate buoyancy forces, to allow objects filled with a low density gas to float in denser media. The obtained models demonstrate rich dynamic behaviour, such as bouncing, floating, deflation and inflation.

关 键 词:膨胀模型 物理模型 动画设计 弹性表面
收稿时间:2005-12-09
修稿时间:2005-12-09

Inflatable Models
Ling Li,Vasily Volkov. Inflatable Models[J]. Journal of Computer Science and Technology, 2006, 21(2): 154-158. DOI: 10.1007/s11390-006-0154-1
Authors:Ling Li  Vasily Volkov
Affiliation:(1) Department of Computing, Curtin University of Technology, Perth, WA, 6845, Australia
Abstract:A physically-based model is presented for the simulation of a new type of deformable objects-inflatable objects, such as shaped balloons, which consist of pressurized air enclosed by an elastic surface. These objects have properties inherent in both 3D and 2D elastic bodies, as they demonstrate the behaviour of 3D shapes using 2D formulations. As there is no internal structure in them, their behaviour is substantially different from the behaviour of deformable solid objects. We use one of the few available models for deformable surfaces, and enhance it to include the forces of internal and external pressure. These pressure forces may also incorporate buoyancy forces, to allow objects filled with a low density gas to float in denser media. The obtained models demonstrate rich dynamic behaviour, such as bouncing, floating, deflation and inflation.
Keywords:inflatable models   physically based modelling   physically based animation
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