Geostationary Operational Environmental Satellite
The Geostationary Operational Environmental Satellite, operated by the United States' National Oceanic and Atmospheric Administration 's National Environmental Satellite, Data, and Information Service division, supports weather forecasting, severe storm tracking, and meteorology research. Spacecraft and ground-based elements of the system work together to provide a continuous stream of environmental data. The National Weather Service and the Meteorological Service of Canada use the GOES system for their North American weather monitoring and forecasting operations, and scientific researchers use the data to better understand land, atmosphere, ocean, and climate dynamics.
The GOES system uses geosynchronous equatorial satellites that, since the launch of SMS-1 in 1974, have been a basic element of U.S. weather monitoring and forecasting.
The procurement, design, and manufacture of GOES satellites is overseen by NASA.
NOAA is the official provider of both GOES terrestrial data and GOES space weather data. Data can also be accessed using the SPEDAS software.
History
The first GOES satellite, GOES-1, was launched in October 1975. Two more followed, launching almost two minutes short of a year apart, on 16 June 1977 and 1978 respectively. Prior to the GOES satellites two Synchronous Meteorological Satellites satellites had been launched; SMS-1 in May 1974, and SMS-2 in February 1975. The SMS-derived satellites were spin-stabilized spacecraft, which provided imagery through a Visible and Infrared Spin Scan Radiometer, or VISSR. The first three GOES satellites used a Philco-Ford bus developed for the earlier Synchronous Meteorological Satellites generation.Following the three SMS GOES spacecraft, five satellites were procured from Hughes, which became the first generation GOES satellites. Four of these reached orbit, with GOES-G being lost in a launch failure.
Image:GOES 2nd generation Spac0175.jpg|thumb|left|First generation GOES satellite
The next five GOES satellites were constructed by Space Systems/Loral, under contract to NASA. The imager and sounder instruments were produced by ITT Aerospace/Communication Division. GOES-8 and -9 were designed to operate for three years, while -10, -11 and -12 have expected lifespans of five years. GOES-11 and -12 were launched carrying enough fuel for ten years of operation, in the event that they survived beyond their expected lifespan.
A contract to develop four third-generation GOES satellites was awarded to Hughes Corporation, with the satellites scheduled for launch on Delta III rockets between 2002 and 2010. After a merger with Hughes, Boeing took over the development contracts, with launches transferred to the Delta IV, following the Delta III's retirement. The contract for the fourth satellite, GOES-Q, was later cancelled. The first third-generation satellite, GOES-13, was launched in May 2006, originally serving as an on-orbit backup. However, in April 2010, GOES-12 was moved to South America coverage and GOES-13 was moved to the GOES-East role. Third generation satellites have an expected lifespan of seven years, but will carry excess fuel to allow them to operate for longer if possible, as with the last two-second generation satellites.
| Status | Longitude | Satellite |
| GOES-East | 75° W | GOES-19 |
| GOES-West | 137° W | GOES-18 |
| On-Orbit Storage | 104.7° W | GOES-16 |
| On-Orbit Storage | 89.5° W | GOES-17 |
The fourth-generation satellites, the GOES-R series, were built by Lockheed Martin using the A2100 satellite bus. The GOES-R series is a four-satellite program intended to extend the availability of the operational GOES satellite system through 2036. GOES-R launched on 19 November 2016. It was renamed GOES-16 upon reaching orbit. GOES-S, the second in the series, was launched on 1 March 2018. It was renamed GOES-17 upon reaching orbit. GOES-T was launched on 1 March 2022. The final satellite in the series, GOES-U was launched on 25 June 2024.
Satellites
Operationally available
Four GOES satellites are available for operational use, with two active in the East and West slots and two in on-orbit storage for contingency purposes.GOES-19 occupies the GOES-East position at 75° W. Launched June 25, 2024 on a Falcon Heavy rocket from Kennedy Space Center, it became operational on April 7, 2025, replacing GOES-16.
GOES-18 occupies the GOES-West position at 137° W. Launched March 1, 2022 aboard an Atlas V rocket from Space Launch Complex 41 at Cape Canaveral Air Force Station in Florida, it became operational on January 4, 2023, replacing GOES-17.
GOES-16 now serves as the first on-orbit backup, relocated to 104.7° W after being relieved of the GOES-East role. This satellite, which was designated GOES-R before orbiting, was launched by an Atlas V 541 rocket from Space Launch Complex 41 at Cape Canaveral Air Force Station in Florida on 19 November 2016. It underwent Post-Launch Testing through early 2017 before replacing GOES-13 as GOES-East.
GOES-17 now serves as the on-orbit backup for GOES-East, following its replacement by GOES-18 and being relieved of the GOES-West role. The satellite, designated as GOES-S before orbiting, was launched by an Atlas V 541 rocket from Space Launch Complex 41 on 1 March 2018. Following post-launch testing and troubleshooting of a problem in its imager, the satellite was declared operational in February 2019. Despite a known cooling-system anomaly, it remains capable of providing backup coverage, if needed.
Inactive or repurposed
Several GOES satellites are still in orbit but are either inactive or have been re-purposed.Although GOES-3 ceased to be used for weather operations in 1989, it spent over 20 years as a critical part of communications between the U.S. and Amundsen–Scott South Pole Station before being decommissioned in 2016. Geostationary satellites expend fuel to keep themselves stationary over the equator, and thus cannot normally ordinarily be seen from the poles. When that fuel is depleted, solar and lunar perturbations increase the satellite's inclination so that its ground track begins to describe an analemma. This usually ends the satellite's primary mission. However, when the inclination is high enough the satellite may begin to rise above the polar horizons at the extremes of the figure-8, as was the case for GOES-3. A nine-meter dish was constructed at the station, and communication with the satellite could be obtained for about five hours per day. Data rates were around 2.048 megabytes/second under optimum conditions.
GOES-8, which was designated GOES-I before orbiting, was the GOES-East satellite when it was in operation. It is in a parking orbit and is drifting westerly at a rate of about 4° daily. It was decommissioned on 1 April 2003 and deactivated on 5 May 2004 after the failure of its propulsion system.
GOES-10, which was designated GOES-K before orbiting, was decommissioned on 2 December 2009 and was boosted to a graveyard orbit. It no longer had the fuel for required maneuvers to keep it on station.
GOES-11, which was designated GOES-L before orbiting, had a partial failure on 6 December 2011. It was decommissioned on 16 December 2011 and boosted into a graveyard orbit.
GOES-12, which was designated GOES-M before orbiting, was decommissioned on 16 August 2013 and boosted into a graveyard orbit.
GOES-13, which was designated GOES-N before orbiting, was decommissioned on 3 January 2018 and boosted into storage orbit. It was transferred to the U.S. Space Force and positioned at 61.5ºE under the new name EWS-G1. Following three years of monitoring the Indian Ocean, EWS-G1 was retired on 31 October 2023 when EWS-G2 took over.
GOES-14 is in storage at 108.2° W. The launch of this satellite, which was designated GOES-O before orbiting, was delayed several times. It was launched successfully on 27 June 2009 from Space Launch Complex 37, on a Delta IV Medium rocket, a Delta IV M+. It underwent Post-Launch Testing until December 2009 and then was placed in on-orbit storage. This satellite is a part of the GOES-N Series. GOES-14 has been and will be activated should another GOES satellite suffer a problem or be decommissioned. It was temporarily designated GOES-East because of technical difficulties with GOES-13 and moved towards the GOES-East location. After resolution of those problems, GOES-14 was returned to storage.
GOES-15, which was designated GOES-P before orbiting, was launched successfully on 4 March 2010, on a Delta IV M+. From 2011 to 2018, it occupied the GOES-West position at 135°W over the Pacific Ocean. It moved eastward to 128° W beginning on 29 October 2018 in order to make room for GOES-17, which took over the GOES-West position on 10 December 2018. GOES-15 operated in tandem with GOES-17 for some time, but was retired in early 2020 and moved to a parking orbit. GOES-15 was temporarily returned to operational status in August 2020 to fill a gap in the sensor capabilities of GOES-17 due to a hardware issue. Like GOES-13, GOES-15 was then transferred to the U.S. Space Force and renamed EWS-G2 to monitor the Indian Ocean until approximately 2030.
Purpose
Designed to operate in geostationary orbit above the Earth, the GOES spacecraft continuously view the continental United States, the Pacific and Atlantic Oceans, Central America, South America, and southern Canada. The three-axis, body-stabilized design enables the sensors to "stare" at the Earth and thus more frequently image clouds, monitor the Earth's surface temperature and water vapour fields, and sound the atmosphere for its vertical thermal and vapor structures. The evolution of atmospheric phenomena can be followed, ensuring real-time coverage of meteorological events such as severe local storms and tropical cyclones. The importance of this capability was proven during hurricanes Hugo and Andrew.The GOES spacecraft also enhance operational services and improve support for atmospheric science research, numerical weather prediction models, and environmental sensor design and development.
Satellite data is broadcast on the L-band, and received at the NOAA Command and Data Acquisition ground station at Wallops Island, Virginia from which it is disseminated to users. Additionally, anyone may receive data directly from the satellites by utilizing a small dish, and processing the data with special software.
The GOES satellites are controlled from the Satellite Operations Control Center in Suitland, Maryland. During significant weather or other events, the normal schedules can be altered to provide the coverage requested by the NWS and other agencies.
GOES-12 and above also have provided a platform for the Solar X-Ray Imager and space environment monitoring instruments.
The SXI provides high-cadence monitoring of large scale solar structures to support the Space Environment Services Center's mission. The SXI unit on GOES-13, however, was damaged by a solar flare in 2006. The SESC, as the nation's "space weather" service, receives, monitors, and interprets a wide variety of solar-terrestrial data. It also issues reports, alerts, and forecasts for special events such as solar flares or geomagnetic storms. This information is important to the operation of military and civilian radio wave and satellite communication and navigation systems. The information also is important to electric power networks, the missions of geophysical explorers, Space Station astronauts, high-altitude aviators, and scientific researchers.
The SEM measures the effect of the Sun on the near-Earth solar-terrestrial electromagnetic environment, providing real-time data to the SESC.