使用动作捕捉的3D树建模

2012 IEEE 4th International Symposium on Plant Growth Modeling, Simulation, Visualization and Applications Pub Date : 2012-10-01 DOI:10.1109/PMA.2012.6524841

J. Long, Michael D. Jones

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引用次数: 4

摘要

从动作捕捉数据中恢复树木的形状是利用动作捕捉数据高效准确地制作风中树木动画的第一步。现有的用于计算机图形学图像合成的树杈结构模型生成算法不能适应运动捕捉提供的独特数据集。我们提出了一种利用粒子流对被动光学运动捕捉系统获得的输入数据进行树形重建的方法。对于高度小于2.5米的树木，使用粘贴的反射标记收集数据，这些标记分布在树枝尖端的一个子集上。初始分支尖端位置估计从平均和平滑的运动捕捉数据丰富了额外的分支尖端添加到模型中。简化粒子流从分支尖端开始，在垂直堆积的边界体积内创建树枝。最终的形状是真实的，类似于原来的树冠形状。几个可调参数提供对分支形状和排列的控制。

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3D tree modeling using motion capture

Recovering tree shape from motion capture data is a first step toward efficient and accurate animation of trees in wind using motion capture data. Existing algorithms for generating models of tree branching structures for image synthesis in computer graphics are not adapted to the unique data set provided by motion capture. We present a method for tree shape reconstruction using particle flow on input data obtained from a passive optical motion capture system. Data is collected using adhesive retroreflective markers are distributed on a subset of the branch tips for trees with height less than 2.5 meters. Initial branch tip positions are estimated from averaged and smoothed motion capture data enriched with additional branch tips added to the model. Simplified particle flow starting at branch tips within a vertical stack of bounding volumes creates tree branches. The resulting shapes are realistic and similar to the original tree crown shape. Several tunable parameters provide control over branch shape and arrangement.

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来源期刊

2012 IEEE 4th International Symposium on Plant Growth Modeling, Simulation, Visualization and Applications

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