Robust 3D Shape Classification via Non-local Graph Attention Network

2023 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) Pub Date : 2023-06-01 DOI:10.1109/CVPR52729.2023.00520

Shengwei Qin, Zhong Li, Ligang Liu

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引用次数: 1

Abstract

We introduce a non-local graph attention network (NLGAT), which generates a novel global descriptor through two sub-networks for robust 3D shape classification. In the first sub-network, we capture the global relationships between points (i.e., point-point features) by designing a global relationship network (GRN). In the second sub-network, we enhance the local features with a geometric shape attention map obtained from a global structure network (GSN). To keep rotation invariant and extract more information from sparse point clouds, all sub-networks use the Gram matrices with different dimensions as input for working with robust classification. Additionally, GRN effectively preserves the low-frequency features and improves the classification results. Experimental results on various datasets exhibit that the classification effect of the NLGAT model is better than other state-of-the-art models. Especially, in the case of sparse point clouds (64 points) with noise under arbitrary SO(3) rotation, the classification result (85.4%) of NLGAT is improved by 39.4% compared with the best development of other methods.

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基于非局部图注意网络的三维形状鲁棒分类

引入了一种非局部图注意网络(NLGAT)，该网络通过两个子网络生成新的全局描述子，用于鲁棒三维形状分类。在第一个子网络中，我们通过设计一个全局关系网络(GRN)来捕获点之间的全局关系(即点-点特征)。在第二个子网络中，我们使用从全局结构网络(GSN)中获得的几何形状注意图来增强局部特征。为了保持旋转不变性并从稀疏点云中提取更多信息，所有子网络都使用不同维数的Gram矩阵作为输入来进行鲁棒分类。此外，GRN有效地保留了低频特征，提高了分类效果。在各种数据集上的实验结果表明，NLGAT模型的分类效果优于其他最先进的模型。特别是在任意SO(3)旋转下，对于带有噪声的稀疏点云(64点)，NLGAT的分类结果(85.4%)比其他方法的最佳发展结果提高了39.4%。

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2023 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)

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