Isosurface extraction in time-varying fields using a temporal hierarchical index tree

Proceedings Visualization '98 (Cat. No.98CB36276) Pub Date : 1998-10-18 DOI:10.1109/VISUAL.1998.745298

Han-Wei Shen

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引用次数: 81

Abstract

Many high-performance isosurface extraction algorithms have been proposed in the past several years as a result of intensive research efforts. When applying these algorithms to large-scale time-varying fields, the storage overhead incurred from storing the search index often becomes overwhelming. This paper proposes an algorithm for locating isosurface cells in time-varying fields. We devise a new data structure, called the temporal hierarchical index tree, which utilizes the temporal coherence that exists in a time-varying field and adaptively coalesces the cells' extreme values over time; the resulting extreme values are then used to create the isosurface cell search index. For a typical time-varying scalar data set, not only does this temporal hierarchical index tree require much less storage space, but also the amount of I/O required to access the indices from the disk at different time steps is substantially reduced. We illustrate the utility and speed of our algorithm with data from several large-scale time-varying CFD simulations. Our algorithm can achieve more than 80% of disk-space savings when compared with the existing techniques, while the isosurface extraction time is nearly optimal.

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利用时间层次索引树在时变字段中提取等值面

在过去的几年中，由于大量的研究工作，已经提出了许多高性能的等值面提取算法。当将这些算法应用于大规模时变字段时，存储搜索索引所产生的存储开销通常会变得非常大。本文提出了一种时变场中等值面单元的定位算法。我们设计了一种新的数据结构，称为时间层次索引树，它利用了时变字段中存在的时间相干性，并自适应地将细胞的极值随时间合并;然后使用得到的极值来创建等面单元格搜索索引。对于典型的时变标量数据集，不仅这个时态层次索引树需要更少的存储空间，而且在不同时间步从磁盘访问索引所需的I/O量也大大减少了。我们用几个大规模时变CFD模拟的数据来说明我们算法的实用性和速度。与现有技术相比，我们的算法可以节省80%以上的磁盘空间，同时等值面提取时间几乎是最优的。

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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Proceedings Visualization '98 (Cat. No.98CB36276)

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