The paper proposes HiLo, a method for detailed and robust 3D clothed human reconstruction from a single RGB image. The key insights are:
High-frequency (HF) information from the signed distance function (SDF) of the parametric body model can enhance the geometry details of the reconstructed clothed human. However, directly using HF SDF leads to convergence difficulties due to large gradients. To address this, the authors introduce a progressive HF SDF that learns detailed 3D geometry in a coarse-to-fine manner.
Low-frequency (LF) information from the low-resolution voxel grid of the parametric body model can improve the robustness of reconstruction against noise in the estimated body shape and pose. The authors design a spatial interaction implicit function that leverages the complementary spatial information across different voxels to mitigate the impact of such noise.
By combining the HF and LF information, HiLo achieves superior performance in terms of detailed geometry and robustness compared to state-of-the-art methods. Experiments on benchmark datasets and in-the-wild images demonstrate the effectiveness of the proposed approach.
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by Yifan Yang,D... a las arxiv.org 04-09-2024
https://arxiv.org/pdf/2404.04876.pdfConsultas más profundas