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推广的三维L-系统及在树木模拟中的应用 被引量:7

Improvement of Three-dimensional L-system and Its Application to Trees Modeling
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摘要 L-系统是植物模拟的重要方法之一。然而用L-系统模拟既有弯曲又有扭曲的枝条,需要大量的产生式,并且很难提炼出这些产生式。通过把空间曲线理论同L-系统相结合,将L-系统的表示图形的字符联系了曲率函数和挠率函数,并且对L-系统中的字符进行了新的龟解释,得到了三维函数L-系统。使用三维函数L-系统绘制既有弯曲又有扭曲的枝条的植物时,L-系统简洁,参数解释自然,同时在编程时,容易控制枝条的长度。实验结果表明,通过调整函数L-系统中的曲率函数和挠率函数可以得到拓扑结构相同但形态差异较大的树。 L-system is one of the important methods of plant simulation. However, when applied to model plants with bending and twisting branches, it requires a large number of productions which are difficult to find out. The L-system symbols, which are on behalf of graphics, were associated with curvature functions and torsion functions, and the new turtle interpretations to the symbols in the 3-D L-system were given. An extension of 3-D L-system, named as 3-D functional L-system, was proposed by combining L-system with the space curve theory. When 3-D functional L-system is used to model plants with bending and twisting branches, the system is concise, the parameters can be well interpreted and the length of the branches can be easily controlled in programming. The paradigms indicate that various trees with the same topological structure and significantly different shapes could be produced by adjusting the curvature functions and torsion functions in the 3-D functional L-system.
作者 袁修久 王胜勇 刘欣 赵学军
机构地区 空军工程大学理学院
出处 《系统仿真学报》 CAS CSCD 北大核心 2011年第11期2308-2311,共4页 Journal of System Simulation
基金 国家自然科学基金(60663003) 陕西省电子信息系统综合集成重点实验室基金(200907A)
关键词 三维植物模拟 弯曲枝条 L-系统 空间曲线理论 3-D plant simulation bending branches L-system space curve theory
分类号 TP393 [自动化与计算机技术—计算机应用技术]
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参考文献10

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共引文献41

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二级引证文献6

系统仿真学报
2011年 第11期

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