Learning Implicit Functions for Dense 3D Shape Correspondence of Generic Objects

IF 20.8 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE IEEE Transactions on Pattern Analysis and Machine Intelligence Pub Date : 2022-12-29 DOI:10.48550/arXiv.2212.14276
Feng Liu, Xiaoming Liu
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引用次数: 1

Abstract

The objective of this paper is to learn dense 3D shape correspondence for topology-varying generic objects in an unsupervised manner. Conventional implicit functions estimate the occupancy of a 3D point given a shape latent code. Instead, our novel implicit function produces a probabilistic embedding to represent each 3D point in a part embedding space. Assuming the corresponding points are similar in the embedding space, we implement dense correspondence through an inverse function mapping from the part embedding vector to a corresponded 3D point. Both functions are jointly learned with several effective and uncertainty-aware loss functions to realize our assumption, together with the encoder generating the shape latent code. During inference, if a user selects an arbitrary point on the source shape, our algorithm can automatically generate a confidence score indicating whether there is a correspondence on the target shape, as well as the corresponding semantic point if there is one. Such a mechanism inherently benefits man-made objects with different part constitutions. The effectiveness of our approach is demonstrated through unsupervised 3D semantic correspondence and shape segmentation.
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通用对象密集三维形状对应的隐式函数学习
本文的目的是以无监督的方式学习拓扑变化的通用对象的密集三维形状对应关系。传统的隐式函数在给定形状潜在码的情况下估计3D点的占用率。相反,我们新颖的隐函数产生了一个概率嵌入来表示零件嵌入空间中的每个3D点。假设对应点在嵌入空间中相似,我们通过从部分嵌入向量到对应3D点的逆函数映射来实现密集对应。这两个函数都是与几个有效的和不确定性感知的损失函数联合学习的,以实现我们的假设,以及编码器生成形状潜在代码。在推理过程中,如果用户选择源形状上的任意点,我们的算法可以自动生成置信度得分,指示目标形状上是否存在对应关系,以及对应的语义点(如果存在)。这样的机制本质上有利于具有不同部件构造的人造物体。通过无监督的三维语义对应和形状分割,证明了该方法的有效性。
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来源期刊
CiteScore
28.40
自引率
3.00%
发文量
885
审稿时长
8.5 months
期刊介绍: The IEEE Transactions on Pattern Analysis and Machine Intelligence publishes articles on all traditional areas of computer vision and image understanding, all traditional areas of pattern analysis and recognition, and selected areas of machine intelligence, with a particular emphasis on machine learning for pattern analysis. Areas such as techniques for visual search, document and handwriting analysis, medical image analysis, video and image sequence analysis, content-based retrieval of image and video, face and gesture recognition and relevant specialized hardware and/or software architectures are also covered.
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