DGMiniNet:Dynamic Graph Convolution Network for LiDAR Point Cloud Semantic Segmentation on Spherical coordinates
Authors: 
Rui Wu, Zhen LiuAuthors Info & Claims
Pages 57 - 63
Abstract
Semantic segmentation of LiDAR data is a vital activity aiming at giving a semantic category to each point in the LiDAR point cloud, allowing accurate recognition and segmentation of objects and structures in the environment.We can obtain detailed information about semantic categories like roads, buildings, vehicles, pedestrians, etc. by classifying the points in the point cloud. This information can be used to support decision-making in the areas of autonomous driving, intelligent transportation systems, environment sensing, and scene understanding.In this research, we propose DGMiniNet, a spherical projection-based approach for semantic segmentation of LiDAR. First, a 2D representation is learned after spherically projecting the 3D LiDAR point cloud.Then, DGMiniNet receives the 2D representation.Creating feature maps and using 2D fully convolutional neural networks (FCNN) to generate semantic labels in 2D space.The labels that have been given in two-dimensional space are then reprojected into three-dimensional space via the post-processing module.Accurate point cloud contour extraction is accomplished by enhancing the association of dynamic feature maps with labels while simultaneously adding information from semantic segmentation, resulting in more semantically intelligible and geometrically accurate outputs.The semantickitti dataset was used to train our method, which has a 93% accuracy rate.
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Index Terms
- DGMiniNet:Dynamic Graph Convolution Network for LiDAR Point Cloud Semantic Segmentation on Spherical coordinates
Index terms have been assigned to the content through auto-classification.
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Published In
August 2023
232 pages
ISBN:9798400708015
DOI:10.1145/3617695
Copyright © 2023 ACM.
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Published: 02 November 2023
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BDIOT 2023
BDIOT 2023: 2023 7th International Conference on Big Data and Internet of Things
August 11 - 13, 2023
Beijing, China
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Overall Acceptance Rate 75 of 136 submissions, 55%
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