Semantic Segmentation of 3D Point Clouds in Outdoor Environments Based on Local Dual-Enhancement

Abstract

Semantic segmentation of 3D point clouds in drivable areas is very important for unmanned vehicles. Due to the imbalance between the size of various outdoor scene objects and the sample size, the object boundaries are not clear, and small sample features cannot be extracted. As a result, the semantic segmentation accuracy of 3D point clouds in outdoor environment is not high. To solve these problems, we propose a local dual-enhancement network (LDE-Net) for semantic segmentation of 3D point clouds in outdoor environments for unmanned vehicles. The network is composed of local-global feature extraction modules, and a local feature aggregation classifier. The local-global feature extraction module captures both local and global features, which can improve the accuracy and robustness of semantic segmentation. The local feature aggregation classifier considers the feature information of neighboring points to ensure clarity of object boundaries and the high overall accuracy of semantic segmentation. Experimental results show that provides clearer boundaries between various objects, and has higher identification accuracy for small sample objects. The LDE-Net has good performance for semantic segmentation of 3D point clouds in outdoor environments.