Fine Registration of Mobile and Airborne LiDAR Data Based on Common Ground Points

Yanming Chen, Xiaoqiang Liu, Mengru Yao, Liang Cheng, Manchun Li
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引用次数: 2

Abstract

Light Detection and Ranging (LiDAR), as an active remote sensing technology, can be mounted on satellite, aircraft, vehicle, tripod and other platforms to acquire three-dimensional information of the earth surface efficiently. However, it is difficult to obtain omnidirectional three-dimensional information of the earth surface using a LiDAR system from a single platform. So the integration of multi-platform LiDAR data, in which data registration is a core part, has become an important topic in geospatial information processing. In this paper, the iterative closest common ground points registration method is proposed. Firstly, the possible common ground points of mobile and airborne LiDAR data are extracted. And then the adaptive octree structure is utilized to thin the LiDAR ground points, which make mobile and airborne LiDAR ground points have the same point density. Finally, the fine registration parameters are calculated by the iterative closest point (ICP) method, in which the thinned ground points from two sources are input data. The innovation of this method is that the common ground points and adaptive octree structure are used to optimize the input data of iterative closest point, which overcomes the registration difficulty caused by different perspectives and resolutions of mobile and airborne LiDAR. The proposed method was tested in this paper and can effectively realize the fine registration of mobile and airborne LiDAR data and make the façade points acquired by mobile LiDAR and the roof points acquired by airborne LiDAR fitter.
基于公共地面点的移动和机载激光雷达数据精细配准
光探测与测距(LiDAR)作为一种主动式遥感技术,可以安装在卫星、飞机、车辆、三脚架等平台上,高效获取地球表面三维信息。然而,利用单一平台的激光雷达系统很难获得地球表面的全方位三维信息。因此,以数据配准为核心的多平台激光雷达数据集成已成为地理空间信息处理领域的重要课题。本文提出了一种迭代的最近公共接地点配准方法。首先,提取移动和机载激光雷达数据可能的公共接地点;然后利用自适应八叉树结构对激光雷达地面点进行细化,使移动和机载激光雷达地面点具有相同的点密度。最后,采用迭代最近点法(ICP)计算精细配准参数,该方法将两个源的稀疏接地点作为输入数据。该方法的创新之处在于利用公共接地点和自适应八叉树结构对迭代最近点输入数据进行优化,克服了移动和机载激光雷达不同视角和分辨率带来的配准困难。本文对所提出的方法进行了测试,可以有效地实现移动激光雷达与机载激光雷达数据的精细配准,并使移动激光雷达获取的前方点与机载激光雷达滤波器获取的屋顶点相匹配。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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