| Title: | realistic, fast, and controllable simulation of solid combustion |
| Author: | Zhu Jian
; Chang Yuanzhang
; Wu Enhua
|
| Source: | Computer Animation and Virtual Worlds
|
| Issued Date: | 2011
|
| Keyword: | Combustion
; Fires
; Geometry
|
| Indexed Type: | EI
|
| ISSN: | 1546-4261
|
| Department: | (1) Computer Graphics and Multimedia Laboratory Faculty of Science and Technology University of Macau Av. Padre Tomas Pereira Taipa Macau China; (2) State Key Laboratory of Computer Science Institute of Software Chinese Academy of Sciences Beijing China
|
| Abstract: | We present a realistic, fast, and controllable model to simulate fire propagation on solid objects with the object decomposition process involved. A hybrid structure of grids is employed to simulate the whole process efficiently. An improved burning surface update scheme based on level set and a novel method for visualizing the burning surface are proposed to produce convincing results. To achieve interactive simulation speed, a few acceleration techniques are employed, including a moving grid generated to dynamically track the fire propagation, a refined Marching Cubes method to reconstruct the burning surface, and a hardware-implemented fluid solver. By controlling a few physical and geometric parameters, we are able to simulate various solid combustion phenomena. © 2011 John Wiley & Sons, Ltd. |
| English Abstract: | We present a realistic, fast, and controllable model to simulate fire propagation on solid objects with the object decomposition process involved. A hybrid structure of grids is employed to simulate the whole process efficiently. An improved burning surface update scheme based on level set and a novel method for visualizing the burning surface are proposed to produce convincing results. To achieve interactive simulation speed, a few acceleration techniques are employed, including a moving grid generated to dynamically track the fire propagation, a refined Marching Cubes method to reconstruct the burning surface, and a hardware-implemented fluid solver. By controlling a few physical and geometric parameters, we are able to simulate various solid combustion phenomena. © 2011 John Wiley & Sons, Ltd. |
| Language: | 英语
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| Citation statistics: |
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| Content Type: | 会议论文
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| URI: | http://ir.iscas.ac.cn/handle/311060/16190
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| Appears in Collections: | 软件所图书馆_会议论文
|
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| Recommended Citation: | |
Zhu Jian,Chang Yuanzhang,Wu Enhua. realistic, fast, and controllable simulation of solid combustion[C]. 见:.
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