Title :
An UV full-waveform airborne LiDAR as a demonstrator for future space missions dedicated to forest studies
Author :
Shang, X. ; Chazette, P.
Author_Institution :
CEA/DSM/LSCE, UVSQ, Gif-sur-Yvette, France
Abstract :
A full-waveform UV lidar ULICE has been used as a demonstrator for future space missions dedicated to forest survey at the global scale. The airborne UV lidar permitted the sampling of representative mid-latitude forests in France. An end to end simulator was built up to simulate spaceborne lidar measurements using as reference the airborne measurements. The sampling acquired on oaks, maritime pines and poplars during winter and summer times are considered to establish a link-budget for different typical orbits always used for past and current space missions (ISS, ICESat and CALIPSO). The lidar signal to noise ratio, the optimal laser footprint size, the required energy for the lidar system, and the signal distortion due to the surface slope are studied.
Keywords :
airborne radar; geophysical equipment; optical radar; spaceborne radar; vegetation; CALIPSO; France; ICESat; ISS; ULICE; UV full-waveform airborne lidar; airborne measurement reference; current space mission; demonstrator; end-to-end simulator; forest study; future space mission; global scale forest survey; lidar signal-to-noise ratio; lidar system energy; maritime pine sampling; oak sampling; optimal laser footprint size; past space mission; poplar sampling; representative mid-latitude forest sampling; signal distortion; spaceborne lidar measurement simulation; summer time; surface slope; typical orbit link-budget; winter time; Extraterrestrial measurements; Laser radar; Measurement by laser beam; Signal to noise ratio; Space missions; Vegetation; Wavelength measurement; UV full-waveform lidar; above-ground biomass; carbon stock; forest; spaceborne lidar;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2014 IEEE International
Conference_Location :
Quebec City, QC
DOI :
10.1109/IGARSS.2014.6946687
