SurfGen:具有显式表面鉴别器的对抗性三维形状综合

Andrew Luo, Tianqin Li, Wenhao Zhang, T. Lee
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引用次数: 25

摘要

深度生成模型的最新进展导致了三维形状合成的巨大进步。虽然现有的模型能够合成以体素、点云或隐式函数表示的形状,但这些方法只能间接地增强最终3D形状表面的可信性。在这里,我们提出了一个3D形状合成框架(SurfGen),它直接将对抗性训练应用于物体表面。我们的方法使用一个可微的球面投影层来捕获和表示隐式3D生成器的显式零等值面,作为单位球体上定义的函数。通过在对抗设置中使用球面CNN处理3D物体表面的球面表示,我们的生成器可以更好地学习自然形状表面的统计信息。我们在大规模形状数据集上评估了我们的模型,并证明了端到端训练模型能够生成具有不同拓扑结构的高保真度3D形状。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SurfGen: Adversarial 3D Shape Synthesis with Explicit Surface Discriminators
Recent advances in deep generative models have led to immense progress in 3D shape synthesis. While existing models are able to synthesize shapes represented as voxels, point-clouds, or implicit functions, these methods only indirectly enforce the plausibility of the final 3D shape surface. Here we present a 3D shape synthesis framework (SurfGen) that directly applies adversarial training to the object surface. Our approach uses a differentiable spherical projection layer to capture and represent the explicit zero isosurface of an implicit 3D generator as functions defined on the unit sphere. By processing the spherical representation of 3D object surfaces with a spherical CNN in an adversarial setting, our generator can better learn the statistics of natural shape surfaces. We evaluate our model on large-scale shape datasets, and demonstrate that the end-to-end trained model is capable of generating high fidelity 3D shapes with diverse topology.
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