Advanced lighting for unstructured-grid data visualization

Min Shih, Yubo Zhang, K. Ma
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引用次数: 2

Abstract

The benefits of using advanced illumination models in volume visualization have been demonstrated by many researchers. Interactive volume rendering incorporated with advanced lighting has been achieved with GPU acceleration for regular-grid volume data, making volume visualization even more appealing as a tool for 3D data exploration. This paper presents an interactive illumination strategy, which is specially designed and optimized for volume visualization of unstructured-grid data. The basis of the design is a partial differential equation based illumination model to simulate the light propagation, absorption, and scattering within the volumetric medium. In particular, a two-level scheme is introduced to overcome the challenges presented by unstructured grids. Test results show that the added illumination effects such as global shadowing and multiple scattering not only lead to more visually pleasing visualization, but also greatly enhance the perception of the depth information and complex spatial relationships for features of interest in the volume data. This volume visualization enhancement is introduced at a time when unstructured grids are becoming increasingly popular for a variety of scientific simulation applications.
用于非结构化网格数据可视化的高级照明
许多研究人员已经证明了在体可视化中使用先进的照明模型的好处。结合了先进照明的交互式体绘制已经通过GPU加速实现了规则网格体数据,使体可视化作为3D数据探索的工具更具吸引力。本文提出了一种针对非结构化网格数据体可视化而设计和优化的交互式照明策略。设计的基础是基于偏微分方程的照明模型来模拟光在体积介质中的传播、吸收和散射。特别地,引入了一种两级方案来克服非结构化网格带来的挑战。测试结果表明,加入全局阴影和多重散射等光照效果,不仅可以使可视化效果更加直观,而且可以大大增强体数据中感兴趣的特征的深度信息和复杂空间关系的感知。这种体积可视化增强是在非结构化网格在各种科学模拟应用中越来越流行的时候引入的。
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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