基于几何和色场相似性的纹理网格质量评估。

IF 6.5

IEEE transactions on visualization and computer graphics Pub Date : 2025-09-22 DOI:10.1109/TVCG.2025.3612942

Kaifa Yang, Qi Yang, Yiling Xu, Zhu Li

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引用次数: 0

摘要

纹理网格质量评估（TMQA）是各种3D网格应用的关键。然而，现有的TMQA方法常常难以提供准确和可靠的评估。鉴于场在表示三维几何和颜色信息方面的有效性，我们提出了一种新的基于点的TMQA方法，称为场网格质量度量（FMQM）。FMQM利用符号距离域和新提出的最近曲面点颜色域来实现有效的网格特征描述。从几何场和颜色场中提取与视觉感知相关的四个特征：几何相似度、几何梯度相似度、空间颜色分布相似度和空间颜色梯度相似度。在三个基准数据集上的实验结果表明，FMQM优于最先进的（SOTA） TMQA指标。此外，FMQM显示出较低的计算复杂度，使其成为3D图形和可视化中的实际应用程序的实用而高效的解决方案。我们的代码可以在https://github.com/yyyykf/FMQM上公开获得。

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Textured Mesh Quality Assessment Using Geometry and Color Field Similarity.

Textured mesh quality assessment (TMQA) is critical for various 3D mesh applications. However, existing TMQA methods often struggle to provide accurate and robust evaluations. Motivated by the effectiveness of fields in representing both 3D geometry and color information, we propose a novel point-based TMQA method called field mesh quality metric (FMQM). FMQM utilizes signed distance fields and a newly proposed color field named nearest surface point color field to realize effective mesh feature description. Four features related to visual perception are extracted from the geometry and color fields: geometry similarity, geometry gradient similarity, space color distribution similarity, and space color gradient similarity. Experimental results on three benchmark datasets demonstrate that FMQM outperforms state-of-the-art (SOTA) TMQA metrics. Furthermore, FMQM exhibits low computational complexity, making it a practical and efficient solution for real-world applications in 3D graphics and visualization. Our code is publicly available at: https://github.com/yyyykf/FMQM.

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IEEE transactions on visualization and computer graphics

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