A new algorithm for estimating ground elevation and vegetation characteristics in coastal salt marshes from high-resolution UAV-based LiDAR point clouds

Pinton Daniele; Canestrelli Alberto; Wilkinson Benjamin; Ifju Peter; Ortega Andrew

首页> 外文期刊>Earth Surface Processes and Landforms: The journal of the British Geomorphological Research Group >A new algorithm for estimating ground elevation and vegetation characteristics in coastal salt marshes from high-resolution UAV-based LiDAR point clouds

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A new algorithm for estimating ground elevation and vegetation characteristics in coastal salt marshes from high-resolution UAV-based LiDAR point clouds

机译：一种新的高分辨率范围沿海盐沼梯田升高和植被特征的新算法

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Salt marshes are transitional zones between ocean and land, which act as natural buffers against coastal hazards. The survival of salt marshes is governed by the rate of organic and inorganic deposition, which strongly depends on vegetation characteristics, such as height and density. Vegetation also favours the dissipation of wind waves and storm surges. For these reasons, an accurate description of both ground elevation and vegetation characteristics in salt marshes is critical for their management and conservation. For this purpose, airborne LiDAR (light detection and ranging) laser scanning has become an accessible and cost-effective tool to map salt marshes quickly. However, the limited horizontal resolution (similar to 1 m) of airborne-derived point clouds prevents the direct extraction of ground elevation, vegetation height and vegetation density without the coupling with imagery datasets. Instead, due to the lower flight altitude, UAV (unmanned aerial vehicle)-borne laser scanners provide point clouds with much higher resolution (similar to 5 cm). Although methods for estimating ground level and vegetation characteristics from UAV LiDAR have been proposed for flat ground, we demonstrate that a sloping ground increases prediction errors. Here we derive a new formulation that improves the estimation by employing a correction based on a LiDAR-derived estimate of local ground slope. Our method directly converts the 3D distribution of UAV LiDAR-derived points into vegetation density and height, as well as ground elevation, without the support of additional datasets. The proposed formulation is calibrated by using measured density and height ofSpartina alterniflorain a marsh in Sapelo Island, Georgia, USA, and successfully tested on an independent dataset. Our method produces high-resolution (40 x 40 cm(2)) maps of ground elevation and vegetation characteristics, thus capturing the large gradients in the proximity of tidal creeks. (c) 2020 John Wiley & Sons, Ltd.

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来源
《Earth Surface Processes and Landforms: The journal of the British Geomorphological Research Group》 |2020年第14期|共15页
作者
Pinton Daniele; Canestrelli Alberto; Wilkinson Benjamin; Ifju Peter; Ortega Andrew;
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作者单位

Univ Florida Dept Civil &

Coastal Engn POB 116580 Gainesville FL 32611 USA;

Univ Florida Dept Civil &

Coastal Engn Gainesville FL 32611 USA;

Univ Florida Sch Forest Resourced &

Conservat Gainesville FL 32611 USA;

Univ Florida Dept Mech &

Aerosp Engn Gainesville FL 32611 USA;

Univ Florida Dept Mech &

Aerosp Engn Gainesville FL 32611 USA;

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原文格式 PDF
正文语种 eng
中图分类地球物理学;
关键词
UAV; LiDAR; salt marshes; ground level; vegetation height; vegetation density; Spartina alterniflora;

机译：UAV;LIDAR;盐沼;地面;植被高度;植被密度;Spartina alternflora;

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1. Soil Organic Carbon Contents and Stocks in Coastal Salt Marshes with Spartina alterniflora Following an Invasion Chronosequence in the Yellow River Delta,China [J] . ZHANG Guangliang, BAI Junhong, JIA Jia, 中国地理科学（英文版） . 2018,第003期
2. Variability of sulfur along the coastal salt marshes, Quanzhou Bay, China [J] . 中国地球化学学报（英文版） . 2006,第0z1期
3. Variability of TOC and TN along the coastal salt marshes, Quanzhou Bay, China [J] . 中国地球化学学报（英文版） . 2006,第0z1期
4. Variability of sulfur along the coastal salt marshes, Quanzhou Bay, China [J] . Jian, CHEN, Aijun, 中国地球化学学报：英文版 . 2006,第B08期
5. UAV-based LiDAR acquisition for the derivation of high-resolution forest and ground information [J] . Felix Morsdorf, Christoph Eck, Carlo Zgraggen, The Leading Edge . 2017,第7期

机译：基于无人机的LiDAR采集，可获取高分辨率的森林和地面信息
6. Comparison of High-Cloud Characteristics as Estimated by Selected Spaceborne Observations and Ground-Based Lidar Datasets [J] . Artemio Plana-Fattori, Gerard Brogniez, Patrick Chervet, Journal of Applied Meteorology and Climatology . 2009,第6期

机译：根据选定的星载观测和地基激光雷达数据集估算的高云特征的比较
7. The role of elevation, relative sea-level history and vegetation transition in determining carbon distribution in Spartina alterniflora dominated salt marshes [J] . Kulawardhana Ranjani W., Feagin Rusty A., Popescu Sorin C., Estuarine Coastal and Shelf Science . 2015,第mara5期

机译：海拔，相对海平面历史和植被转变在确定互花米草占主导地位的盐沼中碳分布中的作用
8. COMPARISON OF CIRRUS CLOUD CHARACTERISTICS AS ESTIMATED BY A MICROPULSE GROUND-BASED LIDAR AND A SPACEBORNE LIDAR CALIOP DATASETS OVER LILLE, FRANCE (50.60 °N, 3.14 ~° E) [C] . Nohra Rita, Parol Frédéric, Dubuisson Philippe International Laser Radar Conference . 2016

机译：Cirrus云特性的比较估计，Micropulse地面LIDAR估计和Lille，法国利勒（50.60°N，3.14°E）
9. Growth characteristics and salt tolerance of two reciprocally invasive grass species found in coastal salt marshes. [D] . Vasquez, Edward A. 2006

机译：沿海盐沼中发现的两种相互入侵的草种的生长特性和耐盐性。
10. Contrasting decadal-scale changes in elevation and vegetation in two Long Island Sound salt marshes [O] . J.C. Carey, K.B. Raposa, C. Wigand, -1

机译：两个长岛声音盐沼中海拔和植被的年代际变化的对比
11. Comparison of Cirrus Cloud Characteristics as Estimated by A Micropulse Ground-Based Lidar and A Spaceborne Lidar CALIOP Datasets Over Lille, France (50.60 °N, 3.14 ° E) [O] . Rita Nohra, Frédéric Parol, Philippe Dubuisson 2016

机译：Cirrus云特性的比较，估计，Micropulse地面LIDAR估计和Lille，法国Lille的太空疯狂LIDAR Caliop Datasets（50.60°N，3.14°E）
12. Protocol for Monitoring Coastal Salt Marsh Elevation and Vegetation Communities in Southeast Coast Network Parks. [R] . DeVivo, J. C., Asper, J., Eastman, S., 2015

机译：东南沿海网络公园沿海盐沼海拔和植被群落监测方案。

A new algorithm for estimating ground elevation and vegetation characteristics in coastal salt marshes from high-resolution UAV-based LiDAR point clouds

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