The effect of short ground vegetation on terrestrial laser scans at a local scale
The effect of short ground vegetation on terrestrial laser scans at a local scale
Terrestrial laser scanning (TLS) can record a large amount of accurate topographical information with a high spatial accuracy over a relatively short period of time. These features suggest it is a useful tool for topographical survey and surface deformation detection. However, the use of TLS to survey a terrain surface is still challenging in the presence of dense ground vegetation. The bare ground surface may not be illuminated due to signal occlusion caused by vegetation. This paper investigates vegetation-induced elevation error in TLS surveys at a local scale and its spatial pattern. An open, relatively flat area vegetated with dense grass was surveyed repeatedly under several scan conditions. A total station was used to establish an accurate representation of the bare ground surface. Local-highest-point and local-lowest-point filters were applied to the point clouds acquired for deriving vegetation height and vegetation-induced elevation error, respectively. The effects of various factors (for example, vegetation height, edge effects, incidence angle, scan resolution and location) on the error caused by vegetation are discussed. The results are of use in the planning and interpretation of TLS surveys of vegetated areas
42-52
Fan, L.
ca106119-a91a-4c08-867b-daa80c35f778
Powrie, W.
600c3f02-00f8-4486-ae4b-b4fc8ec77c3c
Smethurst, J.A.
8f30880b-af07-4cc5-a0fe-a73f3dc30ab5
Atkinson, P.M.
96e96579-56fe-424d-a21c-17b6eed13b0b
Einstein, H.
f777b8e5-4c55-453f-ba7b-ad1bf4d5da96
September 2014
Fan, L.
ca106119-a91a-4c08-867b-daa80c35f778
Powrie, W.
600c3f02-00f8-4486-ae4b-b4fc8ec77c3c
Smethurst, J.A.
8f30880b-af07-4cc5-a0fe-a73f3dc30ab5
Atkinson, P.M.
96e96579-56fe-424d-a21c-17b6eed13b0b
Einstein, H.
f777b8e5-4c55-453f-ba7b-ad1bf4d5da96
Fan, L., Powrie, W., Smethurst, J.A., Atkinson, P.M. and Einstein, H.
(2014)
The effect of short ground vegetation on terrestrial laser scans at a local scale.
ISPRS Journal of Photogrammetry and Remote Sensing, 95, .
(doi:10.1016/j.isprsjprs.2014.06.003).
Abstract
Terrestrial laser scanning (TLS) can record a large amount of accurate topographical information with a high spatial accuracy over a relatively short period of time. These features suggest it is a useful tool for topographical survey and surface deformation detection. However, the use of TLS to survey a terrain surface is still challenging in the presence of dense ground vegetation. The bare ground surface may not be illuminated due to signal occlusion caused by vegetation. This paper investigates vegetation-induced elevation error in TLS surveys at a local scale and its spatial pattern. An open, relatively flat area vegetated with dense grass was surveyed repeatedly under several scan conditions. A total station was used to establish an accurate representation of the bare ground surface. Local-highest-point and local-lowest-point filters were applied to the point clouds acquired for deriving vegetation height and vegetation-induced elevation error, respectively. The effects of various factors (for example, vegetation height, edge effects, incidence angle, scan resolution and location) on the error caused by vegetation are discussed. The results are of use in the planning and interpretation of TLS surveys of vegetated areas
Text
ISPRS vegetation effect paper with the citation detail.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 3 June 2014
e-pub ahead of print date: 26 July 2014
Published date: September 2014
Organisations:
Infrastructure Group, Earth Surface Dynamics
Identifiers
Local EPrints ID: 365759
URI: http://eprints.soton.ac.uk/id/eprint/365759
ISSN: 0924-2716
PURE UUID: bb4ee052-b3cb-4560-ba16-2f39da7615e7
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Date deposited: 16 Jun 2014 12:26
Last modified: 12 Aug 2024 01:36
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Contributors
Author:
L. Fan
Author:
P.M. Atkinson
Author:
H. Einstein
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