Motion visualization in large particle simulations

Visualization and data analysis Pub Date : 2012-01-22 DOI:10.1117/12.904668

Roland Fraedrich, R. Westermann

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引用次数: 8

Abstract

Interactive visualization of large particle sets is required to analyze the complicated structures and formation processes in astrophysical particle simulations. While some research has been done on the development of visualization techniques for steady particle fields, only very few approaches have been proposed to interactively visualize large time-varying fields and their dynamics. Particle trajectories are known to visualize dynamic processes over time, but due to occlusion and visual cluttering such techniques have only been reported for very small particle sets so far. In this paper we present a novel technique to solve these problems, and we demonstrate the potential of our approach for the visual exploration of large astrophysical particle sequences. We present a new hierarchical space-time data structure for particle sets which allows for a scale-space analysis of trajectories in the simulated fields. In combination with visualization techniques that adapt to the respective scales, clusters of particles with homogeneous motion as well as separation and merging regions can be identified effectively. The additional use of mapping functions to modulate the color and size of trajectories allows emphasizing various particle properties like direction, speed, or particle-specific attributes like temperature. Furthermore, tracking of interactively selected particle subsets permits the user to focus on structures of interest.

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大粒子模拟中的运动可视化

在天体物理粒子模拟中，需要大粒子集的交互式可视化来分析复杂的结构和形成过程。虽然对稳定粒子场的可视化技术进行了一些研究，但对大时变场及其动力学进行交互可视化的方法很少。众所周知，粒子轨迹可以随着时间的推移可视化动态过程，但由于遮挡和视觉杂乱，到目前为止，这种技术只报道了非常小的粒子集。在本文中，我们提出了一种解决这些问题的新技术，并证明了我们的方法在大型天体物理粒子序列的视觉探索方面的潜力。我们提出了一种新的粒子集分层时空数据结构，它允许对模拟场中的轨迹进行尺度空间分析。结合适应各自尺度的可视化技术，可以有效地识别运动均匀的粒子簇以及分离和合并区域。额外使用映射功能来调节轨迹的颜色和大小，可以强调各种粒子属性，如方向，速度或粒子特定属性，如温度。此外，交互式选择粒子子集的跟踪允许用户专注于感兴趣的结构。

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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Visualization and data analysis

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