Investigations of the scan characteristics with special focus on multi-target capability for the 2D laser scanner RIEGL miniVUX-2UAV

IF 1.2 Q4 REMOTE SENSING
Ansgar Dreier, Berit Jost, H. Kuhlmann, L. Klingbeil
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Abstract

Abstract Due to recent improvements in sensor technology, UAV-based laser scanning is nowadays used in more and more applications like topographic surveying or forestry. The quality of the scanning result, a georeferenced 3D point cloud, mainly depends on errors coming from the trajectory estimation, the system calibration and the laser scanner itself. Due to the combined propagation of errors into the point cloud, the individual contribution is difficult to assess. Therefore, we propose an entire investigation of the scan characteristics of a 2D laser scanner without the use of the other sensors included in the system. The derived parameters include the range precision, the rangefinder offset as part of the range accuracy, the angular resolution capability and the multi-target capability of the RIEGL miniVUX-2UAV. The range precision is derived from amplitude values by a stochastic model, with observations fitting a theoretical model very well. The resolution capability in the angular direction is about twice the laser beam footprint size and therefore increases linearly for larger distances. Further, a new approach with the corresponding methodology for the investigation of multi-target capability is presented. The minimum distance between two targets to appear as separated echoes within a single laser beam is about 1.6 m and inliers within the measurement precision occur from 1.9 m separation distance. The scan attributes amplitude and deviation, which are computed during the online waveform processing, show a clear systematic relation to the range precision, also in cases of multiple echoes.
二维激光扫描仪RIEGL minivux -2无人机的扫描特性研究,特别关注多目标能力
摘要近年来,由于传感器技术的进步,基于无人机的激光扫描技术在地形测量、林业等领域的应用越来越广泛。基于地理参考的三维点云扫描结果的质量主要取决于轨迹估计、系统校准和激光扫描仪本身的误差。由于误差在点云中的联合传播,个体的贡献很难评估。因此,我们建议在不使用系统中包含的其他传感器的情况下,对二维激光扫描仪的扫描特性进行全面研究。推导的参数包括RIEGL minivux -2无人机的距离精度、作为距离精度一部分的测距仪偏移量、角分辨能力和多目标能力。距离精度由振幅值通过一个随机模型得到,观测值与理论模型拟合得很好。在角方向上的分辨率大约是激光束足迹尺寸的两倍,因此随着距离的增加而线性增加。在此基础上,提出了一种新的多目标性能研究方法。在一束激光中,以分离回波形式出现的两个目标之间的最小距离约为1.6 m,测量精度范围内的间隔距离为1.9 m。在线波形处理过程中计算的扫描属性振幅和偏差与距离精度有明显的系统关系,在多回波情况下也是如此。
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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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