DocumentCode
106411
Title
Effective LAI and CHP of a Single Tree From Small-Footprint Full-Waveform LiDAR
Author
Fieber, Karolina D. ; Davenport, Ian J. ; Tanase, Mihai A. ; Ferryman, James M. ; Gurney, Robert J. ; Walker, Jeffrey P. ; Hacker, J.M.
Author_Institution
Sch. of Syst. Eng., Univ. of Reading, Reading, UK
Volume
11
Issue
9
fYear
2014
fDate
Sept. 2014
Firstpage
1634
Lastpage
1638
Abstract
This letter has tested the canopy height profile (CHP) methodology as a way of effective leaf area index (LAIe) and vertical vegetation profile retrieval at a single-tree level. Waveform and discrete airborne LiDAR data from six swaths, as well as from the combined data of six swaths, were used to extract the LAIe of a single live Callitris glaucophylla tree. LAIe was extracted from raw waveform as an intermediate step in the CHP methodology, with two different vegetation-ground reflectance ratios. Discrete point LAIe estimates were derived from the gap probability using the following: 1) single ground returns and 2) all ground returns. LiDAR LAIe retrievals were subsequently compared to hemispherical photography estimates, yielding mean values within ±7% of the latter, depending on the method used. The CHP of a single dead Callitris glaucophylla tree, representing the distribution of vegetation material, was verified with a field profile manually reconstructed from convergent photographs taken with a fixed-focal-length camera. A binwise comparison of the two profiles showed very high correlation between the data reaching R2 of 0.86 for the CHP from combined swaths. Using a study-area-adjusted reflectance ratio improved the correlation between the profiles, but only marginally in comparison to using an arbitrary ratio of 0.5 for the laser wavelength of 1550 nm.
Keywords
geophysical techniques; remote sensing by laser beam; vegetation; CHP methodology; Callitris glaucophylla tree; canopy height profile; convergent photographs; discrete airborne LiDAR data; effective LAI; fixed-focal-length camera; gap probability; hemispherical photography; leaf area index; single-tree level; small-footprint full-waveform LiDAR; vegetation material; vegetation-ground reflectance ratios; vertical vegetation profile retrieval; Cameras; Cogeneration; Correlation; Indexes; Laser radar; Photography; Vegetation; Canopy height profile (CHP); Soil Moisture Active Passive Experiment (SMAPEx); effective leaf area index $(hbox{LAI}_{rm e})$; effective leaf area index $(hbox{LAI}_{rm e})$ ; full-waveform airborne LiDAR; single tree; vegetation profile;
fLanguage
English
Journal_Title
Geoscience and Remote Sensing Letters, IEEE
Publisher
ieee
ISSN
1545-598X
Type
jour
DOI
10.1109/LGRS.2014.2303500
Filename
6744570
Link To Document