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Design of Inversion Procedure for the Airborne CO2-IPDA LIDAR: A Preliminary Study.

, , , , , , , and . IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens., (2021)

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Study on Influences of Atmospheric Factors on Vertical CO2 Profile Retrieving From Ground-Based DIAL at 1.6 μm., , , , and . IEEE Trans. Geosci. Remote. Sens., 53 (6): 3221-3234 (2015)Design of Inversion Procedure for the Airborne CO2-IPDA LIDAR: A Preliminary Study., , , , , , , and . IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens., (2021)FuzzGAN: A Generation-Based Fuzzing Framework for Testing Deep Neural Networks., , , , and . HPCC/DSS/SmartCity/DependSys, page 1601-1608. IEEE, (2022)An improved retrieving method of vertical CO2 concentrations profile for dial., , , , and . IGARSS, page 4149-4152. IEEE, (2014)Observation of atmospheric aerosol scattering coefficient, absorption coefficient, and SSA based on nephelometer and aethalometer measurements in Wuhan City, Central China., , , and . IGARSS, page 2226-2229. IEEE, (2015)Development of differential absorption LiDAR system at 1.57 μm for sensing carbon dioxide in China., , , , , , , and . IGARSS, page 5268-5271. IEEE, (2017)Two-wavelength depolarization Mie Lidar for tropospheric aerosol measurements., , , and . IGARSS, page 4051-4054. IEEE, (2016)Measuring Co2 Concentration by Airborne Lidar., , and . IGARSS, page 7252-7255. IEEE, (2021)Multi-Magnet Tracking Method using Extended Kalman Filter., , , and . IEEE SENSORS, page 1-4. IEEE, (2021)A Method for Estimating the Background Column Concentration of CO2 Using the Lagrangian Approach., , , , and . IEEE Trans. Geosci. Remote. Sens., (2022)