![]() ^ "Tianjin explosions visible from space".^ "New geostationary meteorological satellites - Himawari-8/9 -" (PDF)."H-2A rocket boosts Japanese weather satellite into orbit". "Japan lofts Himawari 8 weather satellite via H-IIA rocket". ^ a b c d e Peat, Chris (22 January 2015).The data from this instrument is transmitted to a ground station in Saitama, Japan with a Ka-band signal, and is ultimately provided to the National Institute of Information and Communications Technology (NICT) for use monitoring space weather events along the Japanese meridian. Both sensors have a time resolution of 10 seconds. In total SEDA-e has an energy range of 15-100 MeV and a field of view of ☓9.35°. SEDA-p consists of 8 separate proton telescope elements. It has an energy range of 0.2-4.5 M eV and a field of view of ☗8.3°. SEDA-e is a single element with 8 stacked charge collecting plates. The Space Environmental Data Acquisition Monitor (SEDA) is the second instrument aboard Himawari 8, and it consists of two sensors: SEDA-e for detecting high energy electrons and SEDA-p for detecting high energy protons. A recent study reported that Himawari-8 had acquired cloud-free observations every 4 days, while capturing the seasonal changes of vegetation in the cloud-prone region of Southeast Asia more accurately than before. The Australian Bureau of Meteorology CEO Dr Rob Vertessy stated that Himawari 8 "generates about 50 times more data than the previous satellite". The AHI can produce images with a resolution down to 500m and can provide full disk observations every 10 mins and images of Japan every 2.5 minutes. ![]() ![]() The instrument was designed and built by Exelis Geospatial Systems (now Harris Space & Intelligence Systems) and has similar spectral and spatial characteristics to the Advanced Baseline Imager (ABI) used in the American GOES-16, - 17, - T, and - U satellites. The primary instrument aboard Himawari 8, the Advanced Himawari Imager (AHI), is a 16 channel multispectral imager to capture visible light and infrared images of the Asia-Pacific region. Power is supplied by a single gallium arsenide solar panel, which provides up to 2.6 kilowatts of power. At launch, the mass of the satellite was about 3,500 kilograms (7,700 lb). ![]() The DS2000 satellite bus has a lifespan of 15 years, however the expected operational lifespan of Himawari 8 is expected to be limited by its instruments which are only designed for 8 years of service. ĭata recorded from the Japanese Himawari 8 will be made freely available for use by meteorological agencies in other countries. The Himawari satellite was able to capture the Tianjin explosions in 2015, and the Hunga Tonga–Hunga Ha'apai eruption in 2022. Its temporal and spatial resolution enables it to observe disastrous events in remote places, such as volcanic eruptions. It is also responsible for ensuring the safety of ships, aviation and observing the environment of the earth. The role of Himawari 8 is to provide typhoon, rainstorm, weather forecast and other related reports for Japan, East Asia, and Western Pacific region. Himawari 9, which is identical to Himawari 8, was launched on 2 November 2016 and placed in a stand-by orbit until 2022, when it is planned to succeed Himawari 8. The launch occurred at 05:16 UTC on 7 October 2014 and reached its operational geostationary orbit in October 2014, at 35,786 kilometers and 140.7 degrees East. Himawari 8 was launched atop a H-IIA rocket flying from the Yoshinobu Launch Complex Pad 1 at the Tanegashima Space Center. Himawari 8 entered operational service on 7 July 2015 and is the successor to MTSAT-2 (Himawari 7) which was launched in 2006. The spacecraft was constructed by Mitsubishi Electric with assistance from Boeing, and is the first of two similar satellites to be based on the DS2000 satellite bus. Himawari 8 ( ひまわり8号) is a Japanese weather satellite, the 8th of the Himawari geostationary weather satellites operated by the Japan Meteorological Agency.
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