Modeling and visualization of leaf venation patterns

ACM SIGGRAPH 2005 Papers Pub Date : 2005-07-01 DOI:10.1145/1186822.1073251

Adam Runions, M. Fuhrer, Brendan Lane, P. Federl, A. Rolland-Lagan, P. Prusinkiewicz

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引用次数: 333

Abstract

We introduce a class of biologically-motivated algorithms for generating leaf venation patterns. These algorithms simulate the interplay between three processes: (1) development of veins towards hormone (auxin) sources embedded in the leaf blade; (2) modification of the hormone source distribution by the proximity of veins; and (3) modification of both the vein pattern and source distribution by leaf growth. These processes are formulated in terms of iterative geometric operations on sets of points that represent vein nodes and auxin sources. In addition, a vein connection graph is maintained to determine vein widths. The effective implementation of the algorithms relies on the use of space subdivision (Voronoi diagrams) and time coherence between iteration steps. Depending on the specification details and parameters used, the algorithms can simulate many types of venation patterns, both open (tree-like) and closed (with loops). Applications of the presented algorithms include texture and detailed structure generation for image synthesis purposes, and modeling of morphogenetic processes in support of biological research.

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叶脉结构的建模与可视化

我们介绍了一类生物驱动的算法来生成叶脉图案。这些算法模拟了三个过程之间的相互作用:(1)叶脉向嵌入叶片的激素(生长素)来源发育;(2)静脉邻近改变激素源分布;(3)叶片生长对叶脉形态和来源分布的影响。这些过程是在表示静脉节点和生长素来源的点集上的迭代几何操作方面制定的。此外，还保留了静脉连接图以确定静脉宽度。算法的有效实现依赖于使用空间细分(Voronoi图)和迭代步骤之间的时间一致性。根据使用的规范细节和参数，算法可以模拟多种类型的脉纹模式，包括开放(树状)和封闭(带循环)。该算法的应用包括用于图像合成目的的纹理和详细结构生成，以及支持生物研究的形态发生过程建模。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ACM SIGGRAPH 2005 Papers

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