Zihao Li;Pan Gao;Kang You;Chuan Yan;Manoranjan Paul
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引用次数: 0
摘要
以往的研究已经证明了基于点的神经模型在点云分析任务中的有效性。然而,为原始点坐标生成高效输入嵌入仍是一个关键问题。此外,另一个问题在于邻近聚合的效率有限,而邻近聚合是网络干系中的关键组成部分。在本文中,我们提出了一种全局注意力引导的双域特征学习网络(GAD)来解决上述问题。我们首先设计了上下文位置增强变换器(CPT)模块,该模块采用改进的全局注意力机制,生成全局感知输入嵌入,作为后续聚合的指导。然后,级联双域 K 近邻特征融合(DKFF),通过新颖的双域特征学习(既重视局部几何关系,又重视长距离语义联系)进行有效的特征聚合。在多个点云分析任务(如分类、部件分割和场景语义分割)上的广泛实验证明了所提方法的卓越性能和所设计模块的功效。
Global Attention-Guided Dual-Domain Point Cloud Feature Learning for Classification and Segmentation
Previous studies have demonstrated the effectiveness of point-based neural models on the point cloud analysis task. However, there remains a crucial issue on producing the efficient input embedding for raw point coordinates. Moreover, another issue lies in the limited efficiency of neighboring aggregations, which is a critical component in the network stem. In this paper, we propose a global attention-guided dual-domain feature learning network (GAD) to address the above-mentioned issues. We first devise the contextual position-enhanced transformer (CPT) module, which is armed with an improved global attention mechanism, to produces a global-aware input embedding that serves as the guidance to subsequent aggregations. Then, the dual-domain K-nearest neighbor feature fusion (DKFF) is cascaded to conduct effective feature aggregation through novel dual-domain feature learning which appreciates both local geometric relations and long-distance semantic connections. Extensive experiments on multiple point cloud analysis tasks (e.g., classification, part segmentation, and scene semantic segmentation) demonstrate the superior performance of the proposed method and the efficacy of the devised modules.