A two-stage algorithm for extraction of ground and top of canopy in photon-counting profiling-LiDAR data in preparation for the ICESat-2 mission

机译：分两步提取光子计数轮廓LiDAR数据中的冠层地面和顶部的算法，为ICESat-2任务做准备

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Estimating forest canopy heights over large geographical regions is important for quantifying global carbon stocks, which in turn are needed for the study of climate change. Laser altimetry (LiDAR) is increasingly popular as a sensing technique for vegetation height and structure. NASA's ICESat-2, which is scheduled for launch in July 2017, will provide a platform for collecting LiDAR-based canopy height measurements on a global scale over a two-year period. However, unlike the first ICESat mission, which utilized a waveform LiDAR, ICESat-2 will be equipped with a photon-counting LiDAR system. This new sensor is capable of providing increased accuracy in high-slope terrain, but it is also expected to produce large amounts of noise, depending on sun angle and atmospheric conditions. This paper describes recent improvements to a novel two-stage algorithm that estimates ground and canopy surfaces from photon-counting LiDAR, in preparation for the ICESat-2 mission.

机译：估算较大地理区域的森林冠层高度对于量化全球碳储量很重要，而碳储量又是研究气候变化所必需的。激光测高仪（LiDAR）作为一种用于植被高度和结构的传感技术越来越受欢迎。 NASA的ICESat-2计划于2017年7月发射，它将提供一个平台，在两年的时间内在全球范围内收集基于LiDAR的机盖高度测量值。但是，与第一个使用波形LiDAR的ICESat任务不同，ICESat-2将配备光子计数LiDAR系统。这种新型传感器能够在高坡度地形中提供更高的精度，但根据太阳角度和大气条件，它也有望产生大量噪声。本文介绍了对新型两阶段算法的最新改进，该算法从光子计数LiDAR估算地面和树冠表面，为ICESat-2任务做准备。

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《IEEE International Geoscience and Remote Sensing Symposium》|2014年|1353-1356|共4页
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Awadallah Mahmoud; Ghannam Sherin; Abbott Lynn; Ghanem Ahmed;
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Accuracy; Data mining; Estimation; Laser radar; Noise; Photonics; Vegetation mapping; ICESat-2; Photon-counting LiDAR;

机译：精度;数据挖掘;估计;激光雷达;噪声;光子学;植被映射; ICESat-2;光子计数LiDAR;

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1. Algorithm for Detection of Ground and Canopy Cover in Micropulse Photon-Counting Lidar Altimeter Data in Preparation for the ICESat-2 Mission [J] . Herzfeld U.C., McDonald B.W., Wallin B.F., IEEE Transactions on Geoscience and Remote Sensing . 2014,第4期

机译：为ICESat-2任务做准备的微脉冲光子计数激光雷达高度计数据中地面和树冠覆盖的检测算法
2. Ground and Top of Canopy Extraction From Photon-Counting LiDAR Data Using Local Outlier Factor With Ellipse Searching Area [J] . Bowei Chen, Yong Pang, Zengyuan Li, IEEE Geoscience and Remote Sensing Letters . 2019,第9期

机译：利用局部椭圆值和椭圆搜索面积从光子计数LiDAR数据提取冠层的地面和顶部
3. Applicability of an automatic surface detection approach to micro-pulse photon-counting lidar altimetry data: implications for canopy height retrieval from future ICESat-2 data [J] . Mahsa S. Moussavi, Waleed Abdalati, Ted Scambos, International journal of remote sensing . 2014,第13期

机译：自动表面检测方法对微脉冲光子计数激光雷达测高仪数据的适用性：从将来的ICESat-2数据检索冠层高度的意义
4. A two-stage algorithm for extraction of ground and top of canopy in photon-counting profiling-LiDAR data in preparation for the ICESat-2 mission [C] . Awadallah Mahmoud, Ghannam Sherin, Abbott Lynn, IEEE International Geoscience and Remote Sensing Symposium . 2014

机译：一种两阶段算法，用于在光子计数分析 - 激光数据中提取顶部和顶部的底座，为ICESAT-2任务准备
5. Toward regional- to continental-scale estimates of vegetation canopy height: An empirical approach based on data from the Shuttle Radar Topography Mission. [D] . Walker, Wayne S. 2006

机译：对植被冠层高度的区域到大陆范围的估计：一种基于航天飞机雷达地形任务数据的经验方法。
6. Assessing the Spectral Properties of Sunlit and Shaded Components in Rice Canopies with Near-Ground Imaging Spectroscopy Data [O] . Kai Zhou, Xinqiang Deng, Xia Yao, 2017

机译：利用近地成像光谱数据评估水稻冠层中被日光照射和遮光的成分的光谱特性
7. An Algorithm for Detection of Ground and Canopy Cover in Micropulse Photon-Counting Lidar Altimeter Data in Preparation of the ICESat-2 Mission [O] . Neumann Thomas A., Brenner Anita, Wallins Bruce F., 2012

机译：ICESat-2任务准备中微脉冲光子计数激光雷达高度计数据中地面和树冠覆盖的检测算法

A two-stage algorithm for extraction of ground and top of canopy in photon-counting profiling-LiDAR data in preparation for the ICESat-2 mission

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