Tim Schmit - On the Evolution of the GOES Satellites 0:00GOES started with working with NASA back in the late ?60?s. In 1966 NASA was going 0:07to put up a communications satellite into geostationary orbit and Dr. Vern Suomi of 0:13the University of Wisconsin-Madison said, ?well you need to put a camera on that??a 0:18cloud camera, if you will, to watch the evolution of the clouds features. So that started the 0:22whole GOES world: December 6, 1966. So the first camera that we had in 1966 was just 0:31a visible channel, which is great if you?re looking at clouds for example during the day, 0:37but the world would then go dark at night. Then we evolved the system to have infrared, 0:43or the heat of the radiating surface, and then we evolved to more and more spectral 0:49bands or frequencies to look at different layers in the atmosphere. And now we can use 0:57that information to better observe the Earth-atmosphere system and use that to initialize or start 1:03the initial fields for numerical models or predictions of what?s going to happen. The 1:08idea is that you can?t very well predict what?s going to happen in the atmosphere 1:12if you don?t have a good idea what?s happening right now. So the geostationary data is not 1:17just used for the imagery that you see on the evening news, that the hurricane center 1:22uses, but also for many quantitative products. The most exciting part for me to GOES-R is 1:27just these rapid images. Today we have this conflict: do we want to scan a kind of a regional 1:35or hemispheric view or a mesoscale view? But with GOES-R we?ll be able to do both. So 1:43we?ll be able to make full-disk images say every 15 minutes, looking at the Continental 1:48United States every 5 minutes, but these small areas ? 1,000 by 1,000 kilometers ? we?ll 1:52be able to look at one spot every 30 seconds, or if there are two regions of interest we 1:58can look at them both for every one minute. So then we can see not just what has happened, 2:03which is kind of the world we?re in now with 15 minute or 30 minute data, but really 2:07while its happening? while the eye is swirling?while the convection is forming. So its really the 2:13temporal resolution. The GOES serves really the whole hemisphere and so right now we?re 2:19in a case where we?re going to do rapid scan imaging over the Continental United States, 2:23then we don?t get those images in the southern hemisphere. But now with GOES-R, we?ll be 2:30able to do both of those. We don?t have to choose which would be more important: this 2:35hurricane or that dust storm. We?ll be able to monitor them both as we go on.