Factors contributing to accuracy in the estimation of the woody canopy leaf area density profile using 3D portable lidar imaging.

@article{Hosoi2007FactorsCT,
  title={Factors contributing to accuracy in the estimation of the woody canopy leaf area density profile using 3D portable lidar imaging.},
  author={Fumiki Hosoi and Kenji Omasa},
  journal={Journal of experimental botany},
  year={2007},
  volume={58 12},
  pages={
          3463-73
        }
}
  • F. Hosoi, K. Omasa
  • Published 1 September 2007
  • Environmental Science, Mathematics
  • Journal of experimental botany
Factors that contribute to the accuracy of estimating woody canopy's leaf area density (LAD) using 3D portable lidar imaging were investigated. The 3D point cloud data for a Japanese zelkova canopy [Zelkova serrata (Thunberg) Makino] were collected using a portable scanning lidar from several points established on the ground and at 10 m above the ground. The LAD profiles were computed using voxel-based canopy profiling (VCP). The best LAD results [a root-mean-square error (RMSE) of 0.21 m(2) m… 
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A new voxel-based method titled “point cloud slicing” is presented to retrieve the biophysical characteristics of the forest canopy including extinction coefficient, gap fraction, overlapping effect, and effective leaf area (ELA) from PCD.
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