Higher-Order Conditional Random Fields-Based 3D Semantic Labeling of Airborne Laser-Scanning Point Clouds

Yong Li,Yuliang Wang,Sheng Xu,Xiance Du,Shaobo Xia,Dong Chen,Qiang Yang

doi:10.3390/rs11101248

Abstract

This paper presents a novel framework to achieve 3D semantic labeling of objects (e.g., trees, buildings, and vehicles) from airborne laser-scanning point clouds. To this end, we propose a framework which consists of hierarchical clustering and higher-order conditional random fields (CRF) labeling. In the hierarchical clustering, the raw point clouds are over-segmented into a set of fine-grained clusters by integrating the point density clustering and the classic K-means clustering algorithm, followed by the proposed probability density clustering algorithm. Through this process, we not only obtain a more uniform size and more homogeneous clusters with semantic consistency, but the topological relationships of the cluster’s neighborhood are implicitly maintained by turning the problem of topology maintenance into a clustering problem based on the proposed probability density clustering algorithm. Subsequently, the fine-grained clusters and their topological context are fed into the CRF labeling step, from which the fine-grained cluster’s semantic labels are learned and determined by solving a multi-label energy minimization formulation, which simultaneously considers the unary, pairwise, and higher-order potentials. Our experiments of classifying urban and residential scenes demonstrate that the proposed approach reaches 88.5% and 86.1% of “m F 1 ” estimated by averaging all classes of the F 1 -scores. We prove that the proposed method outperforms five other state-of-the-art methods. In addition, we demonstrate the effectiveness of the proposed energy terms by using an “ablation study” strategy.

Highlights

Outdoor scene labeling of airborne laser-scanning (ALS) point clouds is a key step in many applications such as autonomous driving, urban scene understanding, surveying and mapping, smart city and remote sensing, among others [1,2,3,4,5,6]
We have presented a novel conditional random fields (CRF)-based 3D semantic labeling algorithm for assigning semantic information in ALS point clouds
Instead of using point-based semantic labeling, this algorithm is based on higher-level clusters that are created by integrating the density-based spatial clustering of applications with noise (DBSCAN) and the classic K-means algorithms, followed by the proposed probability density clustering algorithm

Summary

Introduction

Outdoor scene labeling of airborne laser-scanning (ALS) point clouds is a key step in many applications such as autonomous driving, urban scene understanding, surveying and mapping, smart city and remote sensing, among others [1,2,3,4,5,6]. Li et al [7] proposed an ALS point cloud classification method based on multilevel features fusion and pyramid neighborhood optimization. In single point-based methods, the representation of the geometric structure and contextual information in individual point clouds has not been fully used, resulting in lower accuracy of point labeling. To solve this problem, cluster-based classification approaches [12,13] have been proposed by adding a segmentation step prior to classification. The user-defined features that are derived from the segmented clusters are fed into machine learning or deep learning algorithms for final labeling

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