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Issue #7/2019
A.S. Boreysho, A.A. Kim, M.A. Konyaev, V.S. Luginya, A.V. Morozov, A.E. Orlov
Modern Lidar Systems for Atmosphere Remote Sensing
Modern Lidar Systems for Atmosphere Remote Sensing
DOI: 10.22184/1992-7296.FRos.2019.13.7.648.657
Remote sensing of the atmosphere in the optical range is currently one of the most effective ways to obtain information about its physicochemical and dynamic properties. Today, lidar technology for atmospheric monitoring is widely used in meteorology, ecology, climatology, in flight safety security, wind energy. The article describes the physical principles of the atmospheric lidars operation, provides measurement results and technical characteristics of lidar meteorological systems and complexes of domestic development.
Remote sensing of the atmosphere in the optical range is currently one of the most effective ways to obtain information about its physicochemical and dynamic properties. Today, lidar technology for atmospheric monitoring is widely used in meteorology, ecology, climatology, in flight safety security, wind energy. The article describes the physical principles of the atmospheric lidars operation, provides measurement results and technical characteristics of lidar meteorological systems and complexes of domestic development.
Теги: atmospheric research lidar lidar technologies remote sensing wind lidar ветровой лидар дистанционное зондирование исследование атмосферы лидар лидарные технологии
DOI: 10.22184/1992-7296.FRos.2019.13.7.648.657
Remote sensing of the atmosphere in the optical range is currently one of the most effective ways to obtain information about its physicochemical and dynamic properties. Today, lidar technology for atmospheric monitoring is widely used in meteorology, ecology, climatology, in flight safety security, wind energy. The article describes the physical principles of the atmospheric lidars operation, provides measurement results and technical characteristics of lidar meteorological systems and complexes of domestic development.
Remote sensing of the atmosphere in the optical range is currently one of the most effective ways to obtain information about its physicochemical and dynamic properties. Today, lidar technology for atmospheric monitoring is widely used in meteorology, ecology, climatology, in flight safety security, wind energy. The article describes the physical principles of the atmospheric lidars operation, provides measurement results and technical characteristics of lidar meteorological systems and complexes of domestic development.
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