We report the development of a new LIDAR system (LASVEG) for airborne remote sensing of chlorophyll fluorescence (ChlF) and vertical profile of canopies. By combining laser-induced fluorescence (LIF), sun-induced fluorescence (SIF) and canopy height distribution, the new instrument will allow the simultaneous assessment of gross primary production (GPP), photosynthesis efficiency and above ground carbon stocks. Technical issues of the fluorescence LIDAR development are discussed and expected performances are presented
Remote laser-induced fluorescence monitoring can complement passive reflectance measurements on vege...
Airborne Laser Scanning (ALS) has been a well-established tool for the measurement of surface topogr...
International audienceLEDFLEX is a micro-lidar dedicated to the measurement of vegetation fluorescen...
We report the development of a new LIDAR system (LASVEG) for airborne remote sensing of chlorophyll ...
We report the development of a new lidar system for airborne remote sensing of chlorophyll fluoresce...
We report the development of a new lidar system for airborne remote sensing of chlorophyll fluoresce...
In November 1989 the EUREKA project LASFLEUR (EU 380) started as an European research effort to inve...
We propose an empirical method for nondestructive estimation of chlorophyll in tree canopies. The fi...
We have developed two different types of drone-based fluorescence lidar systems for vegetation and m...
oral communication abstractChlorophyll fluorescence emission is closely linked to changes in photosy...
Remote laser-induced fluorescence monitoring can complement passive reflectance measurements on vege...
Airborne Laser Scanning (ALS) has been a well-established tool for the measurement of surface topogr...
International audienceLEDFLEX is a micro-lidar dedicated to the measurement of vegetation fluorescen...
We report the development of a new LIDAR system (LASVEG) for airborne remote sensing of chlorophyll ...
We report the development of a new lidar system for airborne remote sensing of chlorophyll fluoresce...
We report the development of a new lidar system for airborne remote sensing of chlorophyll fluoresce...
In November 1989 the EUREKA project LASFLEUR (EU 380) started as an European research effort to inve...
We propose an empirical method for nondestructive estimation of chlorophyll in tree canopies. The fi...
We have developed two different types of drone-based fluorescence lidar systems for vegetation and m...
oral communication abstractChlorophyll fluorescence emission is closely linked to changes in photosy...
Remote laser-induced fluorescence monitoring can complement passive reflectance measurements on vege...
Airborne Laser Scanning (ALS) has been a well-established tool for the measurement of surface topogr...
International audienceLEDFLEX is a micro-lidar dedicated to the measurement of vegetation fluorescen...