Overall, these findings indicate that the high-frequency observations of FY-4B can be fully utilized to monitor forest and grassland fires, which can continuously track the dynamic evolution of fire and can distinguish the spatial distribution of different fire intensities in large-scale fire fields.
May 9, 2023
Overall, these findings indicate that the high-frequency observations of FY-4B can be fully utilized to monitor forest and grassland fires, which can ...
Jan 17, 2024 · Overall, these findings indicate that the high-frequency observations of FY-4B can be fully utilized to monitor forest and grassland fires, ...
May 9, 2023 · In this study, the channel data related to fire point identification of Advanced Geostationary Radiation Imager on Fengyun-4B (FY-4B/AGRI) ...
The algorithm can realize the high-precision and stable monitoring of fire. The continuous dynamic monitoring was carried out using the grassland fire Mongolia ...
The research results demonstrate that the GK-2A can continuously monitor fire information such as fire spot position and fire intensity. Furthermore, the ...
Jan 18, 2018 · Application of grassland fire monitoring based on Himawari-8 geostationary meteorological satellite data. J. Nat. Disasters. 2017;26:197–204 ...
Oct 30, 2023 · It is a comprehensive application platform for remote sensing monitoring and application using FY-3 and other meteorological satellite Data.
FY-4 is the second generation of China's geostationary meteorological satellite series. FY-4B, the second of its series, was launched on June 3rd, 2021, aiming ...
Missing: Grassland Fire Dynamic
2nd GOFC/GOLD Workshop on Geostationary Fire Monitoring and Applications. 4. Application examples ... Geostationary meteorological satellite: FY-2C, MTSAT.