Assessing branching structure for biomass and wood quality estimation using terrestrial laser scanning point clouds

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Pyorala , J , Liang , X , Saarinen , N , Kankare , V , Wang , Y , Holopainen , M , Hyyppa , J & Vastaranta , M 2018 , ' Assessing branching structure for biomass and wood quality estimation using terrestrial laser scanning point clouds ' , Canadian journal of remote sensing , vol. 44 , no. 5 , pp. 462-475 . https://doi.org/10.1080/07038992.2018.1557040

Titel: Assessing branching structure for biomass and wood quality estimation using terrestrial laser scanning point clouds
Författare: Pyorala, Jiri; Liang, Xinlian; Saarinen, Ninni; Kankare, Ville; Wang, Yunsheng; Holopainen, Markus; Hyyppa, Juha; Vastaranta, Mikko
Upphovmannens organisation: Laboratory of Forest Resources Management and Geo-information Science
Department of Forest Sciences
Forest Health Group
Forest Ecology and Management
Datum: 2018
Språk: eng
Sidantal: 14
Tillhör serie: Canadian journal of remote sensing
ISSN: 0703-8992
DOI: https://doi.org/10.1080/07038992.2018.1557040
Permanenta länken (URI): http://hdl.handle.net/10138/309291
Abstrakt: Terrestrial laser scanning (TLS) accompanied by quantitative tree-modeling algorithms can potentially acquire branching data non-destructively from a forest environment and aid the development and calibration of allometric crown biomass and wood quality equations for species and geographical regions with inadequate models. However, TLS's coverage in capturing individual branches still lacks evaluation. We acquired TLS data from 158 Scots pine (Pinus sylvestris L.) trees and investigated the performance of a quantitative branch detection and modeling approach for extracting key branching parameters, namely the number of branches, branch diameter (b(d)) and branch insertion angle (b) in various crown sections. We used manual point cloud measurements as references. The accuracy of quantitative branch detections decreased significantly above the live crown base height, principally due to the increasing scanner distance as opposed to occlusion effects caused by the foliage. b(d) was generally underestimated, when comparing to the manual reference, while b was estimated accurately: tree-specific biases were 0.89cm and 1.98 degrees, respectively. Our results indicate that full branching structure remains challenging to capture by TLS alone. Nevertheless, the retrievable branching parameters are potential inputs into allometric biomass and wood quality equations.
Subject: Forestry
LiDAR
Modeling
Point clouds
Scots pine
SCOTS PINE
ABOVEGROUND BIOMASS
NORWAY SPRUCE
LUMBER GRADE
TREE MODELS
FOREST
GROWTH
LIDAR
EQUATIONS
DIAMETER
4112 Forestry
1171 Geosciences
Referentgranskad: Ja
Licens: unspecified
Användningsbegränsning: openAccess
Parallelpublicerad version: acceptedVersion


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