Automatic quality assessment of terrestrial laser scans

IF 1.2 Q4 REMOTE SENSING
J. Hartmann, Max Heiken, H. Alkhatib, I. Neumann
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引用次数: 0

Abstract

Abstract This work addresses the topic of a quality modelling of terrestrial laser scans, including different quality measures such as precision, systematic deviations in distance measurement and completeness. For this purpose, the term “quality” is first defined in more detail in the field of TLS. A distinction is made between a total of seven categories that affect the quality of the TLS point cloud. The focus in this work lies on the uncertainty modeling of the TLS point clouds especially the distance measurement. It is demonstrated that influences such as the intensity and the incidence angle can lead to systematic deviations in the distance measurement of more than 1 mm. Based on these findings, it is presented that systematic deviations in distance measurement can be divided into four classes using machine learning classification approaches. The predicted classes can be useful for deformation analysis or for processing steps like registration. At the end of this work the entire quality assessment process is demonstrated using a real TLS point cloud (40 million points).
地面激光扫描的自动质量评估
摘要这项工作涉及地面激光扫描的质量建模主题,包括不同的质量测量,如精度、距离测量的系统偏差和完整性。为此,“质量”一词首先在TLS领域进行了更详细的定义。对影响TLS点云质量的总共七个类别进行了区分。本工作的重点是TLS点云的不确定性建模,尤其是距离测量。研究表明,强度和入射角等影响会导致距离测量中的系统偏差超过1 基于这些发现,提出了使用机器学习分类方法将距离测量中的系统偏差分为四类。预测的类可用于变形分析或用于处理诸如配准之类的步骤。在这项工作的最后,使用真实的TLS点云(4000万点)演示了整个质量评估过程。
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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来源期刊
Journal of Applied Geodesy
Journal of Applied Geodesy REMOTE SENSING-
CiteScore
2.30
自引率
7.10%
发文量
30
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