Publication: Quantification of hidden canopy volume of airborne laser scanning data using a voxel traversal algorithm
Quantification of hidden canopy volume of airborne laser scanning data using a voxel traversal algorithm
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Kükenbrink, D., Schneider, F. D., Leiterer, R., Schaepman, M. E., & Morsdorf, F. (2017). Quantification of hidden canopy volume of airborne laser scanning data using a voxel traversal algorithm. Remote Sensing of Environment, 194, 424–436. https://doi.org/10.1016/j.rse.2016.10.023
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Accurate three-dimensional information on canopy structure contributes to better understanding of radiation fluxes within the canopy and the physiological processes associated with them. Small-footprint airborne laser scanning (ALS) data proved valuable for characterising the three-dimensional structure of forest canopies and the retrieval of biophysical parameters such as plant and leaf area index (PAI and LAI), fractional cover or canopy layering. Nevertheless, few studies analysed combined occluded and observed canopy elements in d
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- Kükenbrink, Daniel
- Schneider, Fabian D
- Leiterer, Reik
- Morsdorf, Felix
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Kükenbrink, D., Schneider, F. D., Leiterer, R., Schaepman, M. E., & Morsdorf, F. (2017). Quantification of hidden canopy volume of airborne laser scanning data using a voxel traversal algorithm. Remote Sensing of Environment, 194, 424–436. https://doi.org/10.1016/j.rse.2016.10.023
