Shading Style Assessment for Vessel Wall and Lumen Visualization

Eurographics Workshop on Visual Computing for Biomedicine Pub Date : 2021-01-01 DOI:10.2312/vcbm.20211350

Kai Ostendorf, D. Mastrodicasa, K. Bäumler, M. Codari, V. Turner, M. Willemink, D. Fleischmann, B. Preim, G. Mistelbauer

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引用次数: 4

Abstract

Current blood vessel rendering usually depicts solely the surface of vascular structures and does not visualize any interior structures. While this approach is suitable for most applications, certain cardiovascular diseases, such as aortic dissection would beneﬁt from a more comprehensive visualization. In this work, we investigate different shading styles for the visualization of the aortic inner and outer wall, including the dissection ﬂap. Finding suitable shading algorithms, techniques, and appropriate parameters is time-consuming when practitioners ﬁne-tune them manually. Therefore, we build a shading pipeline using well-known shading algorithms such as Blinn-Phong, Oren-Nayar, Cook-Torrance, Toon, and extended Lit-Sphere shading with techniques such as the Fresnel effect and screen space ambient occlusion. We interviewed six experts from various domains to ﬁnd the best combination of shadings for preset combinations that maximize user experience and the applicability in clinical settings.

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血管壁和管腔可视化的阴影风格评估

目前的血管渲染通常只描绘血管结构的表面，而不显示任何内部结构。虽然这种方法适用于大多数应用，但某些心血管疾病，如主动脉夹层，将受益于更全面的可视化。在这项工作中，我们研究了不同的阴影风格，以显示主动脉内外壁，包括夹层皮瓣。当从业者手动微调时，寻找合适的阴影算法，技术和适当的参数是耗时的。因此，我们使用著名的着色算法(如Blinn-Phong, Oren-Nayar, Cook-Torrance, Toon)构建了一个着色管道，并使用菲涅耳效应和屏幕空间环境遮挡等技术扩展了light - sphere着色。我们采访了来自不同领域的六位专家，以找到预设组合的最佳阴影组合，最大限度地提高用户体验和临床环境的适用性。

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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Eurographics Workshop on Visual Computing for Biomedicine

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