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7 December 1998 Inversion algorithms for space lidar observation of clouds and aerosols
Zhaoyan Liu, Nobuo Sugimoto
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Proceedings Volume 3494, Atmospheric Propagation, Adaptive Systems, and Lidar Techniques for Remote Sensing II; (1998) https://doi.org/10.1117/12.332425
Event: Remote Sensing, 1998, Barcelona, Spain
Abstract
The Mission Demonstration Satellite lidar (MDS) is being developed by the National Space Development Agency of Japan for launch in early 2000's. The MDS-lidar will provide a dataset of global distribution of aerosols and clouds. The data will be useful for studies of radiation effects of clouds and aerosols, and validation and assimilation of climate models. This paper discusses the lidar signal inversion algorithms, for the MDS-lidar to quantitatively retrieve the optical properties of aerosols and clouds. Since the effects of multiple scattering and cloud spatial inhomogeneity are significant in the space-lidar measurements, these effects are considered in this paper. Also, an iterative algorithm which is based on the backward inversion algorithm and uses available near-end boundary condition is presented and applied to the inversion of dense cloud signals for the MDS-lidar. A high-spectral-resolution- lidar has been used as a ground-based test tool for the algorithm study.
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Zhaoyan Liu and Nobuo Sugimoto "Inversion algorithms for space lidar observation of clouds and aerosols", Proc. SPIE 3494, Atmospheric Propagation, Adaptive Systems, and Lidar Techniques for Remote Sensing II, (7 December 1998); https://doi.org/10.1117/12.332425
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KEYWORDS
Clouds
LIDAR
Aerosols
Backscatter
Scattering
Atmospheric modeling
Optical properties
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