Shape-based transfer functions for volume visualization

2010 IEEE Pacific Visualization Symposium (PacificVis) Pub Date : 2010-03-02 DOI:10.1109/PACIFICVIS.2010.5429624

Jörg-Stefan Praßni, T. Ropinski, Jörg Mensmann, K. Hinrichs

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引用次数: 58

Abstract

We present a novel classification technique for volume visualization that takes the shape of volumetric features into account. The presented technique enables the user to distinguish features based on their 3D shape and to assign individual optical properties to these. Based on a rough pre-segmentation that can be done by windowing, we exploit the curve-skeleton of each volumetric structure in order to derive a shape descriptor similar to those used in current shape recognition algorithms. The shape descriptor distinguishes three main shape classes: longitudinal, surface-like, and blobby shapes. In contrast to previous approaches, the classification is not performed on a per-voxel level but assigns a uniform shape descriptor to each feature and therefore allows a more intuitive user interface for the assignment of optical properties. By using the proposed technique, it becomes for instance possible to distinguish blobby heart structures filled with contrast agents from potentially occluding vessels and rib bones. After introducing the basic concepts, we show how the presented technique performs on real world data, and we discuss current limitations.

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基于形状的体积可视化传递函数

我们提出了一种新的体积可视化分类技术，该技术考虑了体积特征的形状。所提出的技术使用户能够根据其3D形状区分特征，并为这些特征分配单独的光学属性。基于可以通过窗口完成的粗略预分割，我们利用每个体积结构的曲线骨架来推导类似于当前形状识别算法中使用的形状描述符。形状描述符区分了三种主要的形状类:纵向形状、类表面形状和斑点形状。与以前的方法相比，分类不是在每体素级别上进行的，而是为每个特征分配一个统一的形状描述符，因此允许更直观的用户界面来分配光学属性。通过使用所提出的技术，例如可以区分充满造影剂的斑点状心脏结构与潜在闭塞的血管和肋骨。在介绍了基本概念之后，我们将展示所介绍的技术如何处理真实世界的数据，并讨论当前的限制。

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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2010 IEEE Pacific Visualization Symposium (PacificVis)

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