A novel approach to estimate canopy height using ICESat/GLAS data: a case study in the New Forest National Park, UK
A novel approach to estimate canopy height using ICESat/GLAS data: a case study in the New Forest National Park, UK
The Geoscience Laser Altimeter System (GLAS) aboard Ice, Cloud and land Elevation Satellite (ICESat) is a spaceborne LiDAR sensor. It is the first LiDAR instrument which can digitize the backscattered waveform and offer near global coverage. Among others, scientific objectives of the mission include precise measurement of vegetation canopy heights. Existing approaches of waveform processing for canopy height estimation suggest Gaussian decomposition of the waveform which has the limitation to properly characterize significant peaks and results in discrepant information. Moreover, in most cases, Digital Terrain Models (DTMs) are required for canopy height estimation. This paper presents a new automated method of GLAS waveform processing for extracting vegetation canopy height in the absence of a DTM. Canopy heights retrieved from GLAS waveforms were validated with field measured heights. The newly proposed method was able to explain 79% of variation in canopy heights with an RMSE of 3.18 m, in the study area. The unexplained variation in canopy heights retrieved from GLAS data can be due to errors introduced by footprint eccentricity, decay of energy between emitted and received signals, uncertainty in the field measurements and limited number of sampled footprints.
Results achieved with the newly proposed method were encouraging and demonstrated its potential of processing full-waveform LiDAR data for estimating forest canopy height. The study also had implications on future full-waveform spaceborne missions and their utility in vegetation studies.
109-118
Iqbal, Irfan
4b673e51-f37a-4831-86e9-937fc1648262
Dash, Jadunandan
51468afb-3d56-4d3a-aace-736b63e9fac8
Ullah, Saleem
57adf052-1d3a-4927-86b8-7362135127b4
Ahmad, Ghayyas
c346b3df-0416-4fef-8c9e-1377f4a19fac
August 2013
Iqbal, Irfan
4b673e51-f37a-4831-86e9-937fc1648262
Dash, Jadunandan
51468afb-3d56-4d3a-aace-736b63e9fac8
Ullah, Saleem
57adf052-1d3a-4927-86b8-7362135127b4
Ahmad, Ghayyas
c346b3df-0416-4fef-8c9e-1377f4a19fac
Iqbal, Irfan, Dash, Jadunandan, Ullah, Saleem and Ahmad, Ghayyas
(2013)
A novel approach to estimate canopy height using ICESat/GLAS data: a case study in the New Forest National Park, UK.
International Journal of Applied Earth Observation and Geoinformation, 23, .
(doi:10.1016/j.jag.2012.12.009).
Abstract
The Geoscience Laser Altimeter System (GLAS) aboard Ice, Cloud and land Elevation Satellite (ICESat) is a spaceborne LiDAR sensor. It is the first LiDAR instrument which can digitize the backscattered waveform and offer near global coverage. Among others, scientific objectives of the mission include precise measurement of vegetation canopy heights. Existing approaches of waveform processing for canopy height estimation suggest Gaussian decomposition of the waveform which has the limitation to properly characterize significant peaks and results in discrepant information. Moreover, in most cases, Digital Terrain Models (DTMs) are required for canopy height estimation. This paper presents a new automated method of GLAS waveform processing for extracting vegetation canopy height in the absence of a DTM. Canopy heights retrieved from GLAS waveforms were validated with field measured heights. The newly proposed method was able to explain 79% of variation in canopy heights with an RMSE of 3.18 m, in the study area. The unexplained variation in canopy heights retrieved from GLAS data can be due to errors introduced by footprint eccentricity, decay of energy between emitted and received signals, uncertainty in the field measurements and limited number of sampled footprints.
Results achieved with the newly proposed method were encouraging and demonstrated its potential of processing full-waveform LiDAR data for estimating forest canopy height. The study also had implications on future full-waveform spaceborne missions and their utility in vegetation studies.
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Published date: August 2013
Organisations:
Global Env Change & Earth Observation
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Local EPrints ID: 348589
URI: http://eprints.soton.ac.uk/id/eprint/348589
ISSN: 0303-2434
PURE UUID: afb2610b-3dda-4dd5-acd7-428d339a709c
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Date deposited: 14 Feb 2013 13:39
Last modified: 15 Mar 2024 03:17
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Author:
Irfan Iqbal
Author:
Saleem Ullah
Author:
Ghayyas Ahmad
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