Estimating 3D Green Volume and Aboveground Biomass of Urban Forest Trees by UAV-Lidar

Three dimensional (3D) green volume is an important tree factor used in forest surveys as a prerequisite for estimating aboveground biomass (AGB). In this study, we developed a method for accurately calculating the 3D green volume of single trees from unmanned aerial vehicle laser scanner (ULS) data...

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Published inRemote sensing (Basel, Switzerland) Vol. 14; no. 20; p. 5211
Main Authors Zhou, Lv, Li, Xuejian, Zhang, Bo, Xuan, Jie, Gong, Yulin, Tan, Cheng, Huang, Huaguo, Du, Huaqiang
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.10.2022
Subjects
3D green volume
aboveground biomass
Algorithms
Alpha shapes
Biomass
Clouds
Computational geometry
Convexity
Coupling
Estimation
Forests
Growth models
Lasers
Lidar
Model accuracy
Precipitation
random forest model
Remote sensing
Scanners
Three dimensional models
Trees
UAV-Lidar
Unmanned aerial vehicles
urban forest
Urban forests
China
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Abstract Three dimensional (3D) green volume is an important tree factor used in forest surveys as a prerequisite for estimating aboveground biomass (AGB). In this study, we developed a method for accurately calculating the 3D green volume of single trees from unmanned aerial vehicle laser scanner (ULS) data, using a voxel coupling convex hull by slices algorithm, and compared the results using voxel coupling convex hull by slices algorithm with traditional 3D green volume algorithms (3D convex hull, 3D concave hull (alpha shape), convex hull by slices, voxel and voxel coupling convex hull by slices algorithms) to estimate AGB. Our results showed the following: (1) The voxel coupling convex hull by slices algorithm can accurately estimate the 3D green volume of a single ginkgo tree (RMSE = 11.17 m3); (2) Point cloud density can significantly affect the extraction of 3D green volume; (3) The addition of the 3D green volume parameter can significantly improve the accuracy of the model to estimate AGB, where the highest accuracy was obtained by the voxel coupling convex hull by slices algorithm (CV-R2 = 0.85, RMSE = 11.29 kg, and nRMSE = 15.12%). These results indicate that the voxel coupling convex hull by slices algorithms can more effectively calculate the 3D green volume of a single tree from ULS data. Moreover, our study provides a comprehensive evaluation of the use of ULS 3D green volume for AGB estimation and could significantly improve the estimation accuracy of AGB.
AbstractList Three dimensional (3D) green volume is an important tree factor used in forest surveys as a prerequisite for estimating aboveground biomass (AGB). In this study, we developed a method for accurately calculating the 3D green volume of single trees from unmanned aerial vehicle laser scanner (ULS) data, using a voxel coupling convex hull by slices algorithm, and compared the results using voxel coupling convex hull by slices algorithm with traditional 3D green volume algorithms (3D convex hull, 3D concave hull (alpha shape), convex hull by slices, voxel and voxel coupling convex hull by slices algorithms) to estimate AGB. Our results showed the following: (1) The voxel coupling convex hull by slices algorithm can accurately estimate the 3D green volume of a single ginkgo tree (RMSE = 11.17 m3); (2) Point cloud density can significantly affect the extraction of 3D green volume; (3) The addition of the 3D green volume parameter can significantly improve the accuracy of the model to estimate AGB, where the highest accuracy was obtained by the voxel coupling convex hull by slices algorithm (CV-R2 = 0.85, RMSE = 11.29 kg, and nRMSE = 15.12%). These results indicate that the voxel coupling convex hull by slices algorithms can more effectively calculate the 3D green volume of a single tree from ULS data. Moreover, our study provides a comprehensive evaluation of the use of ULS 3D green volume for AGB estimation and could significantly improve the estimation accuracy of AGB.
Author Gong, Yulin
Huang, Huaguo
Tan, Cheng
Zhou, Lv
Du, Huaqiang
Xuan, Jie
Zhang, Bo
Li, Xuejian
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Snippet Three dimensional (3D) green volume is an important tree factor used in forest surveys as a prerequisite for estimating aboveground biomass (AGB). In this...
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SubjectTerms 3D green volume
aboveground biomass
Algorithms
Alpha shapes
Biomass
Clouds
Computational geometry
Convexity
Coupling
Estimation
Forests
Growth models
Lasers
Lidar
Model accuracy
Precipitation
random forest model
Remote sensing
Scanners
Three dimensional models
Trees
UAV-Lidar
Unmanned aerial vehicles
urban forest
Urban forests
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Title Estimating 3D Green Volume and Aboveground Biomass of Urban Forest Trees by UAV-Lidar
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