\textsc{Perm}: A Parametric Representation for Multi-Style 3D Hair Modeling

arXiv - CS - Graphics Pub Date : 2024-07-28 DOI:arxiv-2407.19451

Chengan He, Xin Sun, Zhixin Shu, Fujun Luan, Sören Pirk, Jorge Alejandro Amador Herrera, Dominik L. Michels, Tuanfeng Y. Wang, Meng Zhang, Holly Rushmeier, Yi Zhou

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Abstract

We present \textsc{Perm}, a learned parametric model of human 3D hair designed to facilitate various hair-related applications. Unlike previous work that jointly models the global hair shape and local strand details, we propose to disentangle them using a PCA-based strand representation in the frequency domain, thereby allowing more precise editing and output control. Specifically, we leverage our strand representation to fit and decompose hair geometry textures into low- to high-frequency hair structures. These decomposed textures are later parameterized with different generative models, emulating common stages in the hair modeling process. We conduct extensive experiments to validate the architecture design of \textsc{Perm}, and finally deploy the trained model as a generic prior to solve task-agnostic problems, further showcasing its flexibility and superiority in tasks such as 3D hair parameterization, hairstyle interpolation, single-view hair reconstruction, and hair-conditioned image generation. Our code and data will be available at: \url{https://github.com/c-he/perm}.

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\textsc{Perm}：多风格三维发型建模的参数表示法

我们展示了人类三维头发的学习参数模型 \textsc{Perm}，该模型旨在促进各种与头发相关的应用。与以往联合建模全局发丝形状和局部发丝细节的工作不同，我们建议使用基于 PCA 的频域发丝表示法将它们分开，从而实现更精确的编辑和输出控制。具体来说，我们利用头发丝表示法将头发几何纹理拟合并分解为低频到高频的头发结构。这些分解后的纹理随后用不同的生成模型进行参数化，模拟头发建模过程中的常见阶段。我们进行了大量实验来验证 \textsc{Perm} 的架构设计，最后将训练好的模型作为通用先验模型来解决与任务无关的问题，进一步展示了它在三维毛发参数化、发型插值、单视角毛发重建和毛发条件图像生成等任务中的灵活性和优越性。我们的代码和数据将发布在：url{https://github.com/c-he/perm}。

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arXiv - CS - Graphics

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