可微的Curl-Noise

IF 2.3 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING

Proceedings of the ACM on computer graphics and interactive techniques Pub Date : 2023-05-12 DOI:10.1145/3585511

Xinwen Ding, Christopher Peter Batty

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引用次数: 0

摘要

我们提出了一种C1程序方法——可微旋流噪声，用于二维严格不可压缩流体的动化。虽然Bridson等人[2007]的原始Curl-Noise方法和Chang等人[2022]的最新修正方法都已被用于设计不可压缩流场，但它们在处理障碍物时往往存在不平滑的问题，部分原因是潜在的欧几里得距离函数或最近点函数的性质。因此，我们提出了一种可微方案，该方案以一种尊重放置在任何位置的任意固体简单多边形物体的方式调节背景势，而不引入不连续。我们证明了我们的新方法在一组二维示例中产生了改进的流场，包括当障碍物靠近或具有凹陷时。

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Differentiable Curl-Noise

We present Differentiable Curl-Noise, a C1 procedural method to animate strictly incompressible fluid flows in two dimensions. While both the original Curl-Noise method of Bridson et al. [2007] and a recent modification by Chang et al. [2022] have been used to design incompressible flow fields, they often suffer from non-smoothness in their handling of obstacles, owing in part to properties of the underlying Euclidean distance function or closest point function. We therefore propose a differentiable scheme that modulates the background potential in a manner that respects arbitrary solid simple polygonal objects placed at any location, without introducing discontinuities. We demonstrate that our new method yields improved flow fields in a set of two dimensional examples, including when obstacles are in close proximity or possess concavities.

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来源期刊

Proceedings of the ACM on computer graphics and interactive techniques

CiteScore

2.90

自引率

0.00%

发文量