DHM-Net: Deep Hypergraph Modeling for Robust Feature Matching

Shunxing Chen;Guobao Xiao;Junwen Guo;Qiangqiang Wu;Jiayi Ma
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Abstract

We present a novel deep hypergraph modeling architecture (called DHM-Net) for feature matching in this paper. Our network focuses on learning reliable correspondences between two sets of initial feature points by establishing a dynamic hypergraph structure that models group-wise relationships and assigns weights to each node. Compared to existing feature matching methods that only consider pair-wise relationships via a simple graph, our dynamic hypergraph is capable of modeling nonlinear higher-order group-wise relationships among correspondences in an interaction capturing and attention representation learning fashion. Specifically, we propose a novel Deep Hypergraph Modeling block, which initializes an overall hypergraph by utilizing neighbor information, and then adopts node-to-hyperedge and hyperedge-to-node strategies to propagate interaction information among correspondences while assigning weights based on hypergraph attention. In addition, we propose a Differentiation Correspondence-Aware Attention mechanism to optimize the hypergraph for promoting representation learning. The proposed mechanism is able to effectively locate the exact position of the object of importance via the correspondence aware encoding and simple feature gating mechanism to distinguish candidates of inliers. In short, we learn such a dynamic hypergraph format that embeds deep group-wise interactions to explicitly infer categories of correspondences. To demonstrate the effectiveness of DHM-Net, we perform extensive experiments on both real-world outdoor and indoor datasets. Particularly, experimental results show that DHM-Net surpasses the state-of-the-art method by a sizable margin. Our approach obtains an 11.65% improvement under error threshold of 5° for relative pose estimation task on YFCC100M dataset. Code will be released at https://github.com/CSX777/DHM-Net .
DHM-Net:用于鲁棒特征匹配的深度超图建模
我们在本文中提出了一种用于特征匹配的新型深度超图建模架构(称为 DHM-Net)。我们的网络侧重于通过建立动态超图结构来学习两组初始特征点之间的可靠对应关系,该结构可模拟组与组之间的关系,并为每个节点分配权重。现有的特征匹配方法仅通过简单的图来考虑配对关系,相比之下,我们的动态超图能够以交互捕捉和注意力表征学习的方式来模拟对应点之间的非线性高阶组配关系。具体来说,我们提出了一个新颖的深度超图建模模块,该模块利用邻居信息初始化整体超图,然后采用节点到超边和超边到节点的策略传播对应关系之间的交互信息,同时根据超图注意力分配权重。此外,我们还提出了一种区分对应关系的关注机制,以优化超图,促进表征学习。所提出的机制能够通过对应感知编码和简单的特征门控机制有效定位重要对象的准确位置,从而区分离群值候选。简而言之,我们学习了这样一种动态超图格式,它嵌入了深层次的群组交互,可以明确地推断出对应关系的类别。为了证明 DHM-Net 的有效性,我们在真实世界的室外和室内数据集上进行了大量实验。实验结果表明,DHM-Net 在很大程度上超越了最先进的方法。在 YFCC100M 数据集的相对姿态估计任务中,我们的方法在误差阈值为 5° 的情况下提高了 11.65%。代码将在 https://github.com/CSX777/DHM-Net 上发布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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