GOES East Full disk: GOES-8 data have been processed from June 1998 to December 2002 and the annual degradation rate obtained during this period is 4.0%. GOES East and West Imager data is used to produce synoptic scale standard sectors of imagery. Once operational, the different locations used by the satellites are given a name corresponding to the regions they cover. GOES-17 joins GOES-16, in operations as NOAA’s GOES East, in delivering high-resolution visible and infrared imagery and lightning observations of more than half the globe – from the west coast of Africa to New Zealand and from near the Arctic Circle to the Antarctic Circle. Infrared, visible and water vapor images are generated every 30 minutes with a resolution of 4-8 Km. These are GOES-East and GOES-West, which watch the eastern and western halves of the U.S., respectively.
HTML5 Loop; Latest Image Beyond that, there is no difference in the products themselves between mesoscale imagery and CONUS imagery. GOES-H to GOES-R became GOES-7 to GOES-16 (skipping GOES-Q, which was not built). The image above shows a comparison in the optical energy from GLM and the camera on the ground. Large-area Visible/IR2 and Water Vapor.
March 23, 2018.
HTML5 Loop; Latest Image; 4 Wk Archive; GOES-East 14 km Water Vapor.
NOAA GOES East Satellite Captures the First Images from Space of Gigantic Jet Lightning. Infrared, visible and water vapor images are generated every 30 minutes with a resolution of 4-8 Km.
Both GOES-East and GOES-West are capable of having up to two mesoscale scanning regions. Selected GOES-16 sectors of interest are available below, but every pixel of GOES-16 imagery is available in SLIDER. Satellite images : GOES East - Full disk - visible. This results in satellite imagery that can update faster than most weather radars!
GOES-East 14 km VIS/IR2. Meteosat and GOES-East data corresponding to homogenous pixels along longitude 37.5°W and around 1200 LST have been compared on a monthly basis, leading to a calibration of GOES-East visible channel.
Please visit our GOES-16 Loop of the Day page. The satellite’s ABI will scan each of these regions once per minute, or it can scan one region every 30 seconds.