Estimation of Optimal Parameter for Range Normalization of Multispectral Airborne Lidar Intensity Data

Abstract: Abstract. Range normalization is a common data pre-process that aims to improve the radiometric quality of airborne LiDAR data. This radiometric treatment considers the rate of energy attenuation sustained by the laser pulse as it travels through a medium back and forth from the LiDAR system to the surveyed object. As a result, the range normalized intensity is proportional to the range to the power of a factor a. Existing literature recommended different a values on different land cover types, which are commo… Show more

“…2D image–based phenotyping (e.g., with RGB images or multi-/hyperspectral images) usually involves image registration ( Tondewad and Dale, 2020 ), classification ( Cheng et al., 2020 ), segmentation ( Hossain and Chen, 2019 ), and trait extraction ( Jiang et al., 2020 ). 3D data, such as LiDAR or image-reconstructed point clouds, typically undergo a processing pipeline of registration ( Cheng et al., 2018 ), denoising ( Hu et al., 2021 ), sampling ( Bergman et al., 2020 ), filtering ( Jin et al., 2020a ), normalization ( Kwan and Yan, 2020 ), classification/segmentation ( Mao and Hou, 2019 ), and trait extraction ( Jin et al., 2021b ). These phenotyping methods enable the extraction of structural, physiological, and performance-related traits.…”

Proximal and remote sensing in plant phenomics: 20 years of progress, challenges, and perspectives

“…2D image–based phenotyping (e.g., with RGB images or multi-/hyperspectral images) usually involves image registration ( Tondewad and Dale, 2020 ), classification ( Cheng et al., 2020 ), segmentation ( Hossain and Chen, 2019 ), and trait extraction ( Jiang et al., 2020 ). 3D data, such as LiDAR or image-reconstructed point clouds, typically undergo a processing pipeline of registration ( Cheng et al., 2018 ), denoising ( Hu et al., 2021 ), sampling ( Bergman et al., 2020 ), filtering ( Jin et al., 2020a ), normalization ( Kwan and Yan, 2020 ), classification/segmentation ( Mao and Hou, 2019 ), and trait extraction ( Jin et al., 2021b ). These phenotyping methods enable the extraction of structural, physiological, and performance-related traits.…”

Proximal and remote sensing in plant phenomics: 20 years of progress, challenges, and perspectives