用于科学可视化的神经表面重构比较研究

arXiv - CS - Graphics Pub Date : 2024-07-30 DOI:arxiv-2407.20868

Siyuan Yao, Weixi Song, Chaoli Wang

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引用次数: 0

摘要

这项比较研究评估了各种神经曲面重建方法，尤其关注它们通过多视角渲染图像重建三维曲面对科学可视化的影响。我们将十种方法分为神经辐射场和神经隐式曲面，揭示了利用距离函数（即 SDF 和 UDF）来提高所构建曲面的准确性和平滑度的好处。我们的研究结果凸显了 NeuS2 重构封闭曲面的效率和质量，并确定 NeUDF 是重构开放曲面的理想候选方案，尽管存在一些局限性。通过分享我们的基准数据集，我们邀请研究人员测试他们方法的性能，为科学可视化的曲面重建解决方案的进步做出贡献。

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A Comparative Study of Neural Surface Reconstruction for Scientific Visualization

This comparative study evaluates various neural surface reconstruction methods, particularly focusing on their implications for scientific visualization through reconstructing 3D surfaces via multi-view rendering images. We categorize ten methods into neural radiance fields and neural implicit surfaces, uncovering the benefits of leveraging distance functions (i.e., SDFs and UDFs) to enhance the accuracy and smoothness of the reconstructed surfaces. Our findings highlight the efficiency and quality of NeuS2 for reconstructing closed surfaces and identify NeUDF as a promising candidate for reconstructing open surfaces despite some limitations. By sharing our benchmark dataset, we invite researchers to test the performance of their methods, contributing to the advancement of surface reconstruction solutions for scientific visualization.

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arXiv - CS - Graphics

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