Modelling and Simulation of Lily flowers using PDE Surfaces

2019 13th International Conference on Software, Knowledge, Information Management and Applications (SKIMA) Pub Date : 2019-08-01 DOI:10.1109/SKIMA47702.2019.8982402

Ehtzaz Chaudhry, A. Noreika, L. You, Jian-Jun Zhang, Jian Chang, H. Ugail, Alexander Malyshev, A. Carriazo, A. Iglesias, Z. Habib, Allah Bux Sargano, H. Haron

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引用次数: 1

Abstract

This paper presents a partial differential equation (PDE)-based surface modelling and simulation framework for lily flowers. We use a PDE-based surface modelling technique to represent shape of a lily flower and PDE-based dynamic simulation to animate blossom and decay processes of lily flowers. To this aim, we first automatically construct the geometry of lily flowers from photos to obtain feature curves. Second, we apply a PDE-based surface modelling technique to generate sweeping surfaces to obtain geometric models of the flowers. Then, we use a physics-driven and data-based method and introduce the flower shapes at the initial and final positions into our proposed dynamic deformation model to generate a realistic deformation of flower blossom and decay. The results demonstrate that our proposed technique can create realistic flower models and their movements and shape changes against time efficiently with a small data size.

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百合花的PDE曲面建模与仿真

提出了一种基于偏微分方程(PDE)的百合表面建模与仿真框架。我们使用基于pde的表面建模技术来表示百合花的形状，并使用基于pde的动态仿真来动画百合花的开花和腐烂过程。为此，首先从照片中自动构造百合花朵的几何形状，得到特征曲线。其次，我们应用基于pde的表面建模技术来生成扫描表面，以获得花朵的几何模型。然后，我们使用物理驱动和基于数据的方法，将花在初始和最终位置的形状引入到我们提出的动态变形模型中，以生成真实的花开花和腐烂变形。结果表明，该技术可以在较小的数据量下高效地生成真实的花卉模型及其运动和形状随时间的变化。

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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2019 13th International Conference on Software, Knowledge, Information Management and Applications (SKIMA)

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