Adaptive particle relaxation for time surfaces

A. Berres, H. Obermaier, K. Joy, H. Hagen
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引用次数: 1

Abstract

Time surfaces are a versatile tool to visualise advection and deformation in flow fields. Due to complex flow behaviours involving stretching, shearing, and folding, straightforward mesh-based representations of these surfaces can develop artefacts and degenerate quickly. Common counter-measures rely on refinement and adaptive insertion of new particles which lead to an unpredictable increase in memory requirements. We propose a novel time surface extraction technique that keeps the number of required flow particles constant, while providing a high level of fidelity and enabling straightforward load balancing. Our solution implements a 2D particle relaxation procedure that makes use of local surface metric tensors to model surface deformations. We combine this with an accurate bicubic surface representation to provide an artefact-free surface visualisation. We demonstrate and evaluate benefits of the proposed method with respect to surface accuracy and computational efficiency.
时间表面的自适应粒子弛豫
时间曲面是可视化流场平流和变形的通用工具。由于涉及拉伸、剪切和折叠的复杂流动行为,这些表面的直接基于网格的表示可以产生人工制品并迅速退化。常见的应对措施依赖于改进和自适应地插入新粒子,这会导致内存需求的不可预测的增加。我们提出了一种新的时间表面提取技术,该技术可以保持所需流动粒子的数量恒定,同时提供高水平的保真度并实现直接的负载平衡。我们的解决方案实现了一个二维粒子松弛过程,利用局部表面度量张量来模拟表面变形。我们将其与精确的双三次表面表示相结合,以提供无人工制品的表面可视化。我们论证并评估了所提出的方法在曲面精度和计算效率方面的优势。
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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