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Background-Aware 3-D Point Cloud Segmentation With Dynamic Point Feature Aggregation

Jiajing Chen, Burak Kakillioglu, Senem Velipasalar

2022IEEE Transactions on Geoscience and Remote Sensing43 citationsDOIOpen Access PDF

Abstract

With the proliferation of LiDAR sensors and 3-D vision cameras, 3-D point cloud analysis has attracted significant attention in recent years. In this article, we propose a novel 3-D point cloud learning network, referred to as dynamic point feature aggregation network (DPFA-Net), by selectively performing the neighborhood feature aggregation (FA) with dynamic pooling and an attention mechanism. DPFA-Net has two variants for semantic segmentation and classification of 3-D point clouds. As the core module of the DPFA-Net, we propose an FA layer, in which features of the dynamic neighborhood of each point are aggregated via a self-attention mechanism. In contrast to other segmentation models, which aggregate features from fixed neighborhoods, our approach can aggregate features from different neighbors in different layers providing a more selective and broader view to the query points and focusing more on the relevant features in a local neighborhood. In addition, to further improve the performance of semantic segmentation, we exploit the background–foreground (BF) information and present two novel approaches, namely, two-stage BF-Net and BF regularization. Experimental results show that the proposed DPFA-Net achieves the state-of-the-art overall accuracy score of 89.22% for semantic segmentation on the Stanford large-scale 3-D Indoor Spaces (S3DIS) dataset and provides consistently satisfactory performance across different tasks of semantic segmentation, part segmentation, and 3-D object classification. Our model achieves 93.1% accuracy on the ModelNet40 dataset and provides a mean shape intersection-over-union (IoU) value of 85.5% for part segmentation on the ShapeNet-Part dataset. It is also computationally more efficient compared to other methods.

Topics & Concepts

Computer scienceSegmentationPoint cloudPoolingArtificial intelligenceFeature (linguistics)Pattern recognition (psychology)Aggregate (composite)Materials scienceLinguisticsComposite materialPhilosophy3D Surveying and Cultural Heritage3D Shape Modeling and AnalysisRemote Sensing and LiDAR Applications