Lidar sampling for large-area forest characterization: A review
Lidar sampling for large-area forest characterization: A review
The ability to use digital remotely sensed data for forest inventory is often limited by the nature of the measures, which, with the exception of multi-angular or stereo observations, are largely insensitive to vertically distributed attributes. As a result, empirical estimates are typically made to characterize attributes such as height, volume, or biomass, with known asymptotic relationships as signal saturation occurs. Lidar (light detection and ranging) has emerged as a robust means to collect and subsequently characterize vertically distributed attributes. Lidar has been established as an appropriate data source for forest inventory purposes; however, large area monitoring and mapping activities with lidar remain challenging due to the logistics, costs, and data volumes involved.The use of lidar as a sampling tool for large-area estimation may mitigate some or all of these problems. A number of factors drive, and are common to, the use of airborne profiling, airborne scanning, and spaceborne lidar systems as sampling tools for measuring and monitoring forest resources across areas that range in size from tens of thousands to millions of square kilometers. In this communication, we present the case for lidar sampling as a means to enable timely and robust large-area characterizations. We briefly outline the nature of different lidar systems and data, followed by the theoretical and statistical underpinnings for lidar sampling. Current applications are presented and the future potential of using lidar in an integrated sampling framework for large area ecosystem characterization and monitoring is presented. We also include recommendations regarding statistics, lidar sampling schemes, applications (including data integration and stratification), and subsequent information generation. © 2012.
extrapolation, forest, large area, lidar, light detection and ranging, monitoring, sampling, satellite, stratification
196-209
Wulder, Michael A.
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White, Joanne C.
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Nelson, Ross F.
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Naesset, Hans Ole
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Coops, Nicholas C.
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Hilker, Thomas
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Bater, Christopher W.
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Gobakken, Terje
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June 2012
Wulder, Michael A.
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White, Joanne C.
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Nelson, Ross F.
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Naesset, Hans Ole
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Coops, Nicholas C.
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Hilker, Thomas
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Bater, Christopher W.
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Gobakken, Terje
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Wulder, Michael A., White, Joanne C., Nelson, Ross F., Naesset, Hans Ole, Coops, Nicholas C., Hilker, Thomas, Bater, Christopher W. and Gobakken, Terje
(2012)
Lidar sampling for large-area forest characterization: A review.
Remote Sensing of Environment, 121, .
(doi:10.1016/j.rse.2012.02.001).
Abstract
The ability to use digital remotely sensed data for forest inventory is often limited by the nature of the measures, which, with the exception of multi-angular or stereo observations, are largely insensitive to vertically distributed attributes. As a result, empirical estimates are typically made to characterize attributes such as height, volume, or biomass, with known asymptotic relationships as signal saturation occurs. Lidar (light detection and ranging) has emerged as a robust means to collect and subsequently characterize vertically distributed attributes. Lidar has been established as an appropriate data source for forest inventory purposes; however, large area monitoring and mapping activities with lidar remain challenging due to the logistics, costs, and data volumes involved.The use of lidar as a sampling tool for large-area estimation may mitigate some or all of these problems. A number of factors drive, and are common to, the use of airborne profiling, airborne scanning, and spaceborne lidar systems as sampling tools for measuring and monitoring forest resources across areas that range in size from tens of thousands to millions of square kilometers. In this communication, we present the case for lidar sampling as a means to enable timely and robust large-area characterizations. We briefly outline the nature of different lidar systems and data, followed by the theoretical and statistical underpinnings for lidar sampling. Current applications are presented and the future potential of using lidar in an integrated sampling framework for large area ecosystem characterization and monitoring is presented. We also include recommendations regarding statistics, lidar sampling schemes, applications (including data integration and stratification), and subsequent information generation. © 2012.
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Accepted/In Press date: 4 February 2012
e-pub ahead of print date: 3 March 2012
Published date: June 2012
Keywords:
extrapolation, forest, large area, lidar, light detection and ranging, monitoring, sampling, satellite, stratification
Organisations:
Earth Surface Dynamics
Identifiers
Local EPrints ID: 384675
URI: http://eprints.soton.ac.uk/id/eprint/384675
ISSN: 0034-4257
PURE UUID: 7e06d2e5-6048-4488-844d-fd1ed59ccc15
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Date deposited: 15 Apr 2016 15:10
Last modified: 14 Mar 2024 22:02
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Contributors
Author:
Michael A. Wulder
Author:
Joanne C. White
Author:
Ross F. Nelson
Author:
Hans Ole Naesset
Author:
Nicholas C. Coops
Author:
Thomas Hilker
Author:
Christopher W. Bater
Author:
Terje Gobakken
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