用于无监督平滑非刚性三维形状匹配的同步扩散技术

arXiv - CS - Computational Geometry Pub Date : 2024-07-11 DOI:arxiv-2407.08244

Dongliang Cao, Zorah Laehner, Florian Bernard

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摘要

然而，由于缺乏适当的正则化，这些方法都难以获得空间上平滑的点与点之间的对应关系。在这项工作中，受图上消息传递成功经验的启发，我们提出了同步扩散过程，并将其用作正则化来实现非刚性三维形状匹配问题的平滑性。同步扩散的直观原理是，将相同的输入函数扩散到两个不同的形状上会导致输出不一致。通过使用不同的挑战性数据集，我们证明了我们新颖的正则化方法可以大大提高形状匹配的先进性，尤其是在存在拓扑噪声的情况下。

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Synchronous Diffusion for Unsupervised Smooth Non-Rigid 3D Shape Matching

Most recent unsupervised non-rigid 3D shape matching methods are based on the functional map framework due to its efficiency and superior performance. Nevertheless, respective methods struggle to obtain spatially smooth pointwise correspondences due to the lack of proper regularisation. In this work, inspired by the success of message passing on graphs, we propose a synchronous diffusion process which we use as regularisation to achieve smoothness in non-rigid 3D shape matching problems. The intuition of synchronous diffusion is that diffusing the same input function on two different shapes results in consistent outputs. Using different challenging datasets, we demonstrate that our novel regularisation can substantially improve the state-of-the-art in shape matching, especially in the presence of topological noise.

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arXiv - CS - Computational Geometry

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