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Range Resolution Enhanced Method With Spectral Properties for Hyperspectral LiDAR

Yuhao Xia, Shilong Xu, Hui Shao, Ahui Hou, Jiajie Fang, Fei Han, Youlong Chen, Jiaqi Wen, Fashuai Li, Yuwei Chen, Yihua Hu

2023IEEE Transactions on Geoscience and Remote Sensing30 citationsDOIOpen Access PDF

Abstract

Waveform decomposition is needed as a first step in the extraction of various types of geometric and spectral information from hyperspectral full-waveform LiDAR echoes. We present a new approach to deal with the ”Pseudo-monopulse” waveform formed by the overlapped waveforms from multi-targets when they are very close. We use one single skew-normal distribution (SND) model to fit waveforms of all spectral channels first and count the geometric center position distribution of the echoes to decide whether it contains multi-targets. The geometric center position distribution of the ”Pseudo-monopulse” presents aggregation and asymmetry with the change of wavelength, while such an asymmetric phenomenon cannot be found from the echoes of the single target. Both theoretical and experimental data verify the point. Based on such observation, we further propose a hyperspectral waveform decomposition method utilizing the SND mixture model with: 1) initializing new waveform component parameters and their ranges based on the distinction of the three characteristics (geometric center position, pulse width, and skew-coefficient) between the echo and fitted SND waveform and 2) conducting single-channel waveform decomposition for all channels and 3) setting thresholds to find outlier channels based on statistical parameters of all single-channel decomposition results (the standard deviation and the means of geometric center position) and 4) re-conducting single-channel waveform decomposition for these outlier channels. The proposed method significantly improves the range resolution from 60cm to 5cm at most for a 4ns width laser pulse and represents the state-of-the-art in ”Pseudo-monopulse” waveform decomposition.

Topics & Concepts

Hyperspectral imagingLidarRemote sensingRange (aeronautics)Resolution (logic)Image resolutionSpectral resolutionFull spectral imagingEnvironmental scienceGeologyMaterials scienceComputer scienceArtificial intelligenceSpectral linePhysicsAstronomyComposite materialRemote Sensing and LiDAR Applications3D Surveying and Cultural HeritageAdvanced Optical Sensing Technologies