Going Beyond Standard Ocean Color Observations: Lidar and . . . - Frontiers However, lidar and polarimetry technology will complement standard ocean color products by providing depth-resolved values of attenuation and scattering parameters and additional information about particles morphology and chemical composition
Toward A 3-D Observation of the Ocean Color: Benefit of Lidar Technique . . . Moreover, the processing of the ocean color images requires the knowledge of the atmospheric components (gases, air molecules and aerosols) Lidar (Light Detection and Ranging) is a “laser radar” technique that has been used for a wide range of atmospheric and ocean applications
Going Beyond Standard Ocean Color Observations: Lidar and Polarimetry However, lidar and polarimetry technology will complement standard ocean color products by providing depth-resolved values of attenuation and scattering parameters and additional information about particle morphology and chemical composition
Spaceborne Lidar in the Study of Marine Systems - PMC An ocean optimized HSRL-type satellite lidar will alone revolutionize our understanding of ocean ecosystems, but the benefits of such a mission are greatly expanded if coupled to advanced ocean color observations (such as envisioned for the PACE mission sensor)
Exploring the potential of Aeolus lidar mission for ocean color . . . The Lidar Radiative Transfer Simulation code for Ocean Color applications (LiOC) is used in this study to analyze the dynamics of the signal retrieved by ALADIN ADM-Aeolus from the ocean and verify the possibility of deriving OC data products (see D’Alimonte et al , 2024for details)
Lidar applications for ocean color CALIGOLA is a a multi-purpose space LIDAR mission developed by ASI The goal is to launch the mission in the time window 2030-2031 capabilities This will represent a significant advancement for future ocean remote sensing satellite missions and the ocean science community
Ocean Lidar Remote Sensing This chapter focuses on the application of airborne lidar for sensing the vertical structure of the ocean The most relevant topics involve measurements of temperature T, [chla], altimetry, and water depth (bathymetry or bathy)
Lidar and Ocean Color Remote Sensing for Marine Ecology This Research Topic aims to bring some of the leading scholars in the fields of lidar remote sensing, ocean optics, atmospheric optics, and marine and atmosphere biochemists to describe current and new lidar remote sensing technologies (in-situ, ship-based, airborne, and satellite), and collect the recent achievements of active and passive