Forest in situ observations using unmanned aerial vehicle as an alternative of terrestrial measurements

Forest in situ observations using unmanned aerial vehicle as an alternative of terrestrial measurements

Background Lately, terrestrial point clouds have drawn attention as a new data source for in situ forest investigations. So far, terrestrial laser scanning (TLS) has the highest data quality among all terrestrial point cloud data in terms of geometric accuracy and level of detail (IEEE Transact Geos...

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Bibliographic Details
Published in:Forest ecosystems Vol. 6; no. 1; pp. 1 - 16
Main Authors: Liang, Xinlian, Wang, Yunsheng, Pyörälä, Jiri, Lehtomäki, Matti, Yu, Xiaowei, Kaartinen, Harri, Kukko, Antero, Honkavaara, Eija, Issaoui, Aimad E. I., Nevalainen, Olli, Vaaja, Matti, Virtanen, Juho-Pekka, Katoh, Masato, Deng, Songqiu
Format: Journal Article
Language:English
Published: Singapore Springer Singapore 15-04-2019
Elsevier Limited
KeAi Communications Co., Ltd
Subjects:
Above canopy
Accuracy
Algorithms
Automotive parts
Biomedical and Life Sciences
Boreal forests
Data acquisition
Ecology
Ecosystems
Forestry
Forests
Geometric accuracy
In situ
Lasers
Life Sciences
Mobile
New technology
Parameter estimation
Point cloud
Remote sensing
Scanning
State of the art
Taiga
Terrestrial
Terrestrial environments
Trees
Unmanned aerial vehicle
Unmanned aerial vehicles
Point cloud
Unmanned aerial vehicle
In situ
Above canopy
Terrestrial
Mobile
Forest inventory
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Summary:Background Lately, terrestrial point clouds have drawn attention as a new data source for in situ forest investigations. So far, terrestrial laser scanning (TLS) has the highest data quality among all terrestrial point cloud data in terms of geometric accuracy and level of detail (IEEE Transact Geosci Remote Sens 53: 5117–5132, 2015). The TLS point clouds processed by automated algorithms can provide certain individual tree parameters at close to required accuracy in practical applications. However, all terrestrial point clouds face a general challenge, which is the occlusions of upper tree crowns. An emerging technology called unmanned-aerial-vehicle (UAV) - borne laser scanning (ULS) potentially combines the strengths of above and under canopy surveys. Results The performance of ULS are evaluated in 22 sample plots of various forest stand conditions in a boreal forest. The forest parameter estimates are benchmarked through a comparison with state-of-the-art terrestrial mechanisms from both static terrestrial and mobile laser scanning. The results show that in easy forest stand conditions, the performance of ULS point cloud is comparable with the terrestrial solutions. Conclusions This study gives the first strict evaluation of ULS in situ observations in varied forest conditions. The study also acts as a benchmarking of available active remote sensing techniques for forest in situ mensuration. The results indicate that the current off-the-shelf ULS has an excellent tree height/tops measurement performance. Although the geometrical accuracy of the ULS data, especially at the stem parts, does not yet reach the level of other terrestrial point clouds, the unbeatable high mobility and fast data acquisition make the ULS a very attractive option in forest investigations.
ISSN:2197-5620
2095-6355
2197-5620
DOI:10.1186/s40663-019-0173-3