Abstract
Abstract. Ground surface extraction is one of the classic tasks in airborne laser scanning (ALS) point cloud processing that is used for three-dimensional (3D) city modelling, infrastructure health monitoring, and disaster management. Many methods have been developed over the last three decades. Recently, Deep Learning (DL) has become the most dominant technique for 3D point cloud classification. DL methods used for classification can be categorized into end-to-end and non end-to-end approaches. One of the main challenges of using supervised DL approaches is getting a sufficient amount of training data. The main advantage of using a supervised non end-to-end approach is that it requires less training data. This paper introduces a novel local feature-based non end-to-end DL algorithm that generates a binary classifier for ground point filtering. It studies feature relevance, and investigates three models that are different combinations of features. This method is free from the limitations of point clouds’ irregular data structure and varying data density, which is the biggest challenge for using the elegant convolutional neural network. The new algorithm does not require transforming data into regular 3D voxel grids or any rasterization. The performance of the new method has been demonstrated through two ALS datasets covering urban environments. The method successfully labels ground and non-ground points in the presence of steep slopes and height discontinuity in the terrain. Experiments in this paper show that the algorithm achieves around 97% in both F1-score and model accuracy for ground point labelling.
Highlights
Ground surface point filtering in laser scanned point clouds closely relates to generate a digital terrain model (DTM) or digital elevation model (DEM), which is essential for many applications including three-dimensional (3D) city modelling, urban infrastructure monitoring, flood and earthquake management, change detection, and corridor mapping (Weinmann et al, 2015; Vosselman et al, 2017; Zhang et al, 2018)
One of the first methods for filtering ground points in aerial laser scanning (ALS) point clouds was developed by Lindenberger (1993) that used the concept of mathematical morphology (Haralick and Shapiro, 1992)
This paper proposes a non end-to-end Deep Learning (DL) algorithm to classify ground and non-ground points in ALS point clouds
Summary
Ground surface point filtering in laser scanned point clouds closely relates to generate a digital terrain model (DTM) or digital elevation model (DEM), which is essential for many applications including three-dimensional (3D) city modelling, urban infrastructure monitoring, flood and earthquake management, change detection, and corridor mapping (Weinmann et al, 2015; Vosselman et al, 2017; Zhang et al, 2018). Feature-based DL has been used in point cloud classification (Zhang et al, 2018; Kumar et al, 2019). Kumar et al (2019) developed a multi-scale non end-to-end method for classification of terrestrial laser scanning (TLS) data. We are inspired by the feature-based DL approach, and develop an efficient non end-to-end DL algorithm that creates a binary classifier for ground and non-ground points classification in ALS point clouds. This method does not require transforming data into regular 3D voxel grids nor any rasterization.
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