27 May 2016 Airborne light detection and ranging laser return intensity-based investigation into crown-inside? A case study on Quercus robur trees
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Abstract
The significance of laser return intensity has been widely verified in airborne light detection and ranging (LiDAR)-based forest canopy mapping, but this does not mean that all of its roles have been played. People still ask such questions as “Is it possible using this optical attribute of lasers to investigate individual tree-crown insides wherein laser intensity data are typically yielded in complicated echo-triggering modes?” To answer this question, this study examined the characteristics of the intensities of the laser points within 10 Quercus robur trees by fitting their peak amplitudes into default Gaussian distributions and then analyzing the resulting asymmetric tails. Exploratory data analyses showed that the laser points lying within the distribution tails can indicate primary tree branches in a sketchy way. This suggests that the question can be positively answered, and the traditional restriction of airborne LiDAR in canopy mapping at the crown level has been broken. Overall, this study found a unique way to detect primary tree branches in airborne LiDAR data and pointed out how to explore more ways this optical intensity attribute of airborne LiDAR data can measure tree organs at fine scales and further learn their properties.
© 2016 Society of Photo-Optical Instrumentation Engineers (SPIE)
Yi Lin, Yi Lin, Lifu Zhang, Lifu Zhang, Cheng Wang, Cheng Wang, } "Airborne light detection and ranging laser return intensity-based investigation into crown-inside? A case study on Quercus robur trees," Journal of Applied Remote Sensing 10(2), 026024 (27 May 2016). https://doi.org/10.1117/1.JRS.10.026024 . Submission:
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