Shangfeng Huang scite author profile

Semantic segmentation of 3D point clouds plays a vital role in autonomous driving, 3D maps, and smart cities, etc. Recent work such as PointSIFT shows that spatial structure information can improve the performance of semantic segmentation. Motivated by this phenomenon, we propose Spatial Aggregation Net (SAN) for point cloud semantic segmentation. SAN is based on multi-directional convolution scheme that utilizes the spatial structure information of point cloud. Firstly, Octant-Search is employed to capture the neighboring points around each sampled point. Secondly, we use multi-directional convolution to extract information from different directions of sampled points. Finally, max-pooling is used to aggregate information from different directions. The experimental results conducted on ScanNet database show that the proposed SAN has comparable results with state-of-the-art algorithms such as PointNet, PointNet++, and PointSIFT, etc. In particular, our method has better performance on flat, small objects, and the edge areas that connect objects. Moreover, our model has good trade-off in segmentation accuracy and time complexity.

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Point Cloud Semantic Segmentation Network Based on Multi-Scale Feature Fusion

Jiang

Huang

et al. 2021

Sensors

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The semantic segmentation of small objects in point clouds is currently one of the most demanding tasks in photogrammetry and remote sensing applications. Multi-resolution feature extraction and fusion can significantly enhance the ability of object classification and segmentation, so it is widely used in the image field. For this motivation, we propose a point cloud semantic segmentation network based on multi-scale feature fusion (MSSCN) to aggregate the feature of a point cloud with different densities and improve the performance of semantic segmentation. In our method, random downsampling is first applied to obtain point clouds of different densities. A Spatial Aggregation Net (SAN) is then employed as the backbone network to extract local features from these point clouds, followed by concatenation of the extracted feature descriptors at different scales. Finally, a loss function is used to combine the different semantic information from point clouds of different densities for network optimization. Experiments were conducted on the S3DIS and ScanNet datasets, and our MSSCN achieved accuracies of 89.80% and 86.3%, respectively, on these datasets. Our method showed better performance than the recent methods PointNet, PointNet++, PointCNN, PointSIFT, and SAN.

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Robust 3D reconstruction of building surfaces from point clouds based on structural and closed constraints

Wang

Cai

Cheng

et al. 2020

ISPRS Journal of Photogrammetry and Remote Sensing

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ResDLPS-Net: Joint residual-dense optimization for large-scale point cloud semantic segmentation

Cai

Wang

et al. 2021

ISPRS Journal of Photogrammetry and Remote Sensing

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SSA3D: Semantic Segmentation Assisted One-Stage Three-Dimensional Vehicle Object Detection

Huang

Cai

Wang

et al. 2022

IEEE Trans. Intell. Transport. Syst.

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Shangfeng Huang

Spatial Aggregation Net: Point Cloud Semantic Segmentation Based on Multi-Directional Convolution

Point Cloud Semantic Segmentation Network Based on Multi-Scale Feature Fusion

Robust 3D reconstruction of building surfaces from point clouds based on structural and closed constraints

ResDLPS-Net: Joint residual-dense optimization for large-scale point cloud semantic segmentation

SSA3D: Semantic Segmentation Assisted One-Stage Three-Dimensional Vehicle Object Detection

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