MTSAT 12um – AIRS (All orbits) Experiment on SST MTSAT-2 IR images contain midnight calibration error, which becomes large during eclipse seasons (right charts) To use GSICS correction, SST parameters should be tuned again. Otherwise, significant biases would be appeared. (bottom chart) If diu...
A five-channel Imager manufactured by ITT Industries' Space Systems Division was aboard the MTSAT-2 meteorological satellite launched from Tanegashima Space Center, Japan, in February.(Remote Sensing)
2.3. DATA DISSEMINATION SERVICES FOR MDUS USERS The Stretched-VISSR (S-VISSR) dissemination will be replaced with the High Resolution Imager Data (HiRID) dissemination for Medium-scale Data Utilization Station (MDUS) when MTSAT-1R is in operation in the spring of 2004. The dissemination data ...
Requirements of MTSAT/Imager The Multi-functional Transport SATellite (MTSAT) will be launched using Japan's H-2 rocket in 1999 as a successor to the Geostationary Meteorological Satellite-5 (GMS-5). The goals of the MTSAT system are to: maintain the satellite imagi... S Kigawa 被引量: 0...
In 2015, the operational Japanese MTSAT-2 geostationary satellite was replaced by the Himawari-8, which has a visible and infrared imager with higher spatial and temporal resolutions than its predecessor. In this study, data from both satellites during a three-month overlap period were compared ...
The PSF parameters were found to be consistent over the 5-days of available daytime coincident MTSAT-1R and MTSAT-2 images, and can easily be applied to the MTSAT-1R imager pixel level counts to restore the original quality of the entire MTSAT-1R record.Konstantin V. Khlopenkov...
(2001) was adapted to the Japanese Multifunctional Transport Satellites (MTSAT) system-Japanese Advanced Meteorological Imager (JAMI). COT and DER values were then retrieved for 64 cases over the Yellow Sea (=85,000 LST pixels) and compared with the COT and DER products from the ...
the necessary parameters for sea fog detection over the Yellow Sea, the Comprehensive Analysis Program for Cloud Optical Measurement(CAPCOM) scheme developed by Kawamoto et al.(2001) was adapted to the Japanese Multifunctional Transport Satellites(MTSAT) system-Japanese Advanced Meteorological Imager(JAMI...
Advanced Meteorological Imager (JAMI) [8], FengYun-2 (FY-2 C-H) with a five-band Stretched Visible and Infrared Spin Scan Radiometer (S-VISSR) [9], and the South Korean Communication, Ocean and Meteorological Satellite (COMS-1) with a five-band Meteorological Imager (MI) instrument [10]...