Cloud Cover and Precipitation Monitoring Based on Data from Polar Orbiting and Geostationary Satellites

被引:0
|
作者
E. V. Volkova
A. I. Andreev
A. A. Kostornaya
机构
[1] Planeta State Research Center on Space Hydrometeorology,
[2] Planeta State Research Center on Space Hydrometeorology,undefined
[3] Far Eastern Center,undefined
[4] Planeta State Research Center on Space Hydrometeorology,undefined
[5] Siberian Center,undefined
来源
Russian Meteorology and Hydrology | 2021年 / 46卷
关键词
threshold methods; machine learning methods; artificial neural networks; SEVIRI; Himawari; AVHRR; MSU-MR; cloud mask; cloud types; cloud top height; precipitation;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
页码:830 / 838
页数:8
相关论文
共 50 条
  • [1] Cloud Cover and Precipitation Monitoring Based on Data from Polar Orbiting and Geostationary Satellites
    Volkova, E. V.
    Andreev, A. I.
    Kostornaya, A. A.
    RUSSIAN METEOROLOGY AND HYDROLOGY, 2021, 46 (12) : 830 - 838
  • [2] Detection and assessment of cloud cover and precipitation parameters using data of scanning radiometers of polar–orbiting and geostationary meteorological satellites
    E. V. Volkova
    A. B. Uspensky
    Izvestiya, Atmospheric and Oceanic Physics, 2016, 52 : 1097 - 1109
  • [3] Detection and assessment of cloud cover and precipitation parameters using data of scanning radiometers of polar-orbiting and geostationary meteorological satellites
    Volkova, E. V.
    Uspensky, A. B.
    IZVESTIYA ATMOSPHERIC AND OCEANIC PHYSICS, 2016, 52 (09) : 1097 - 1109
  • [4] Investigation and validation of a dust data fusion method based on monitoring data from geostationary and polar-orbiting satellites
    Cao, GuangZhen
    Zhang, Peng
    Hou, Peng
    Hu, Xiuqing
    Chen, Lin
    REMOTE SENSING OF THE ATMOSPHERE, CLOUDS, AND PRECIPITATION V, 2014, 9259
  • [5] Monitoring volcanic ash cloud top height through simultaneous retrieval of optical data from polar orbiting and geostationary satellites
    Zaksek, K.
    Hort, M.
    Zaletelj, J.
    Langmann, B.
    ATMOSPHERIC CHEMISTRY AND PHYSICS, 2013, 13 (05) : 2589 - 2606
  • [6] Cloud detection in sea surface temperature images by combining data from NOAA polar-orbiting and geostationary satellites
    Yang, ZZ
    Wood, G
    O'Reilly, JE
    IGARSS 2000: IEEE 2000 INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM, VOL I - VI, PROCEEDINGS, 2000, : 1817 - 1820
  • [7] Cloud Top Thermodynamic Phase from Synergistic Lidar-Radar Cloud Products from Polar Orbiting Satellites: Implications for Observations from Geostationary Satellites
    Mayer, Johanna
    Ewald, Florian
    Bugliaro, Luca
    Voigt, Christiane
    REMOTE SENSING, 2023, 15 (07)
  • [8] Precipitation Nowcasting from Geostationary Satellite: Neural Approaches Trained By Polar Orbiting and Ground-Based Data
    Rivolta, Giancarlo
    de Rosa, Michele
    Marzano, Frank Silvio
    RIVISTA ITALIANA DI TELERILEVAMENTO, 2010, 42 (01): : 91 - 115
  • [9] Comparisons of compositing period length for vegetation index data from polar-orbiting and geostationary satellites for the cloud-prone region of West Africa
    Fensholt, Rasmus
    Anyamba, Assaf
    Stisen, Simon
    Sandholt, Inge
    Pak, Ed
    Small, Jennifer
    PHOTOGRAMMETRIC ENGINEERING AND REMOTE SENSING, 2007, 73 (03): : 297 - 309
  • [10] An evaluation of cloud affected UV radiation from polar orbiting and geostationary satellites at high latitudes -: art. no. 1956
    Meerkötter, R
    Verdebout, J
    Bugliaro, L
    Edvardsen, K
    Hansen, G
    GEOPHYSICAL RESEARCH LETTERS, 2003, 30 (18) : 8 - 1
12345