Assessing UAV-based laser scanning for monitoring glacial processes and interactions at high spatial and temporal resolutions

Nathaniel R. Baurley, Chris Tomsett, J. Hart
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引用次数: 2

Abstract

Uncrewed Aerial Vehicles (UAVs), in combination with Structure from Motion (SfM) photogrammetry, have become an established tool for reconstructing glacial and ice-marginal topography, yet the method is highly dependent on several factors, all of which can be highly variable in glacial environments. However, recent technological advancements, related primarily to the miniaturisation of new payloads such as compact Laser Scanners (LS), has provided potential new opportunities for cryospheric investigation. Indeed, UAV-LS systems have shown promise in forestry, river, and snow depth research, but to date the method has yet to be deployed in glacial settings. As such, in this study we assessed the suitability of UAV-LS for glacial research by investigating short-term changes in ice surface elevation, calving front geometry and crevasse morphology over the near-terminus region of an actively calving glacier in southeast Iceland. We undertook repeat surveys over a 0.1 km2 region of the glacier at sub-daily, daily, and weekly temporal intervals, producing directly georeferenced point clouds at very high spatial resolutions (average of >300 points per m−2 at 40 m flying height). Our data has enabled us to: 1) Accurately map surface elevation changes (Median errors under 0.1 m), 2) Reconstruct the geometry and evolution of an active calving front, 3) Produce more accurate estimates of the volume of ice lost through calving, and 4) Better detect surface crevasse morphology, providing future scope to extract size, depth and improve the monitoring of their evolution through time. We also compared our results to data obtained in parallel using UAV-SfM, which further emphasised the relative advantages of our method and suitability in glaciology. Consequently, our study highlights the potential of UAV-LS in glacial research, particularly for investigating glacier mass balance, changing ice dynamics, and calving glacier behaviour, and thus we suggest it has a significant role in advancing our knowledge of, and ability to monitor, rapidly changing glacial environments in future.
评估基于无人机的激光扫描在高空间和时间分辨率下监测冰川过程和相互作用
无人驾驶飞行器(uav)与运动结构(SfM)摄影测量相结合,已经成为重建冰川和冰缘地形的既定工具,但该方法高度依赖于几个因素,所有这些因素在冰川环境中都是高度可变的。然而,最近的技术进步,主要与新型有效载荷的小型化有关,如紧凑型激光扫描仪(LS),为冰冻圈的研究提供了潜在的新机会。事实上,无人机- ls系统已经在林业、河流和雪深研究中显示出前景,但迄今为止,该方法尚未在冰川环境中部署。因此,在本研究中,我们评估了无人机- ls在冰川研究中的适用性,通过调查冰岛东南部一个正在分裂的冰川的近端区域冰面高程、冰裂锋几何形状和裂缝形态的短期变化。我们以次日、日和周的时间间隔对冰川的0.1 km2区域进行了重复调查,以非常高的空间分辨率(在40 m飞行高度上平均每m−2 300个点)产生了直接的地理参考点云。我们的数据使我们能够:1)准确地绘制地表高程变化(中位数误差在0.1 m以下),2)重建活跃的冰解锋面的几何形状和演变,3)更准确地估计冰解损失的体积,4)更好地探测地表裂缝形态,为未来提取大小、深度和改进监测它们随时间的演变提供了范围。我们还将我们的结果与并行使用无人机- sfm获得的数据进行了比较,这进一步强调了我们的方法在冰川学中的相对优势和适用性。因此,我们的研究强调了无人机- ls在冰川研究中的潜力,特别是在调查冰川质量平衡、变化的冰动力学和冰川崩解行为方面,因此我们认为它在提高我们对未来快速变化的冰川环境的认识和监测能力方面具有重要作用。
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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