This paper proposes a physically based method to retrieve LAI and foliage area volume density (FAVD) profile directly from full-waveform Light Detection And ...
Jun 3, 2024 · This paper proposes a physically based method to retrieve LAI and foliage area volume density (FAVD) profile directly from full-waveform Light ...
This paper proposes a physically based method to retrieve LAI and foliage area volume density (FAVD) profile directly from full-waveform Light Detection And ...
This paper proposes a physically based method to retrieve LAI and foliage area volume density (FAVD) profile directly from full-waveform Light Detection And ...
Forest Canopy LAI and Vertical FAVD Profile Inversion from ...
researchr.org › publication › MaSW15-1
Forest Canopy LAI and Vertical FAVD Profile Inversion from Airborne Full-Waveform LiDAR Data Based on a Radiative Transfer Model.
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Abstract: Forest canopy leaf area index (LAI) is a critical variable for the modeling of climates and ecosystems over both regional and global scales.
Sep 29, 2023 · Forest canopy LAI and vertical FAVD profile inversion from airborne full-waveform liDAR data based on a radiative transfer model. Remote ...
The parameters retrieved are canopy height, leaf area index (LAI), fractional cover and ground slope. The range of possible parameters consistent with the ...
“Forest Canopy LAI and Vertical FAVD Profile Inversion from Airborne Full-Waveform LiDAR Data Based on a Radiative Transfer Model.” Remote Sensing 7 (2): ...
Ma, H.; Song, J.L.; Wang, J.D. Forest Canopy LAI and Vertical FAVD Profile Inversion from Airborne Full-Waveform LiDAR Data Based on a Radiative Transfer Model.