About NOAA Satellites

Content on this page requires a newer version of Adobe Flash Player.

Get Adobe Flash player

NESDIS Satellite Information

Using environmental satellites to observe the Earth from space is one of the key tools in forecasting weather, analyzing climate, and monitoring hazards worldwide. This 24-hour global coverage provides us with a never-ending stream of information critical for making decisions affecting everything from what you are going to wear today to governments making decisions about how to deal with climate change. The National Oceanic and Atmospheric Administration (NOAA) in collaboration with the National Aeronautics and Space Administration (NASA) and the U.S. Air Force, manages and operates fleets of weather and environmental monitoring satellites. There are two main types of environmental satellites geostationary and polar-orbiting


GOES

Geostationary Operational Environmental Satellites: When you watch your local newscaster present the weather forecast, and they show an image of weather over the whole United States, you are seeing imagery from NOAA Geostationary Operational Environmental Satellites, or GOES. GOES orbit 35,800 km (22,300 miles) above the Earth's equator at speeds equal to Earth's rotation, which maintain their positions relative to Earth. The GOES provide constant monitoring of various areas of the planet. To fully cover Alaska, Hawaii, the entire continental United States, and the Pacific and Atlantic Ocean (for tropical storms), NOAA operates two GOES satellites simultaneously – GOES-East and GOES-West. The satellites provide constant coverage of the western hemisphere by taking photographic images every 15 minutes. These “constant eyes” are critical for identifying severe weather, snow storms, tropical storms and hurricanes. GOES protect our lives and property every day – constantly watching for new storms and severe weather.

 

In addition to basic imagery, on-board sensors detect cloud, land, and ocean temperatures, as well as monitor activities of the sun. NOAA GOES are also used in identifying when satellite emergency locator beacons have been activated to help with Search and Rescue activities.


POES

Polar Operational Environmental Satellites: When you wonder on Wednesday what the weather will be like over the weekend you turn to weather forecasters, who rely on NOAA Polar Operational Environmental Satellites, or POES, to help make their predictions. POES make regular 360ΒΊ orbits around the Earth's poles from about 833 km (517 miles) above the Earth's surface. The Earth constantly rotates counterclockwise underneath the path of the satellite making for a different view with each orbit. It takes the satellite approximately 1.5 hours complete a full orbit. In a 24-hour period, the 14 orbits of each polar satellite provide two complete views of weather around the world. By having imagery of the whole globe, meteorologists are able to develop models to predict the weather out to five to ten days. NOAA partners with EUMETSAT to constantly operate two polar-orbiting satellites – one POES and a European polar-orbiting satellite called Metop. When polar-orbiting satellites fly over severe weather, they can also give us very detailed pictures of the storms given how much closer they are to storms than GOES. In addition to weather analysis and forecasting, data from the POES series support a broad range of environmental monitoring applications including climate research and prediction, global sea surface temperature measurements, measurements of temperature and humidity of the atmosphere, ocean dynamics research, volcanic eruption monitoring, forest fire detection, and global vegetation analysis. Instruments on POES are critical for providing long-term, sustained observations used for determining the long term changes in climate conditions around the world. Finally, POES assist in search and rescue by locating people, planes and ships, who have activated emergency locator beacons.


DMSP

Defense Meteorological Satellite Program: Since the mid-1960's, when the Department of Defense (DOD) initiated the Defense Meteorological Satellite Program (DMSP), low, earth-orbiting satellites have provided the military with important environmental information. NOAA operates these satellites on behalf of the U.S. Air Force. DMSP satellites "see" such environmental features as clouds, bodies of water, snow, fire, and pollution and record information, which can help determine cloud type and height, land and surface water temperatures, water currents, ocean surface features, ice, and snow. DMSP is ultimately used in planning and conducting U.S. military operations worldwide.


JASON-2

Ocean Surface Topography Mission (OSTM)/JASON-2: One aspect of climate change is sea level rise, which affects much of the world's population that live in coastal areas. To measure the height of the ocean around the world, NOAA participates in a joint Ocean Surface Topography Mission (OSTM) program between NOAA, NASA, France's Centre National d'Etudes Spatiales (CNES), and European Organisation for the Exploitation of Meteorological Satellites (EUMETSAT). This is a joint effort by the four organizations to measure sea surface height by using a radar altimeter mounted on a low-earth orbiting satellite called Jason-2. Satellite altimetry data provides sea surface heights for determining ocean circulation, climate change and sea-level rise. These sea surface height measurements are necessary for ocean modeling, forecasting El Niño/La Niña events, and hurricane intensity prediction.


Under the OSTM program, NOAA provides day-to-day operation of the Jason-2 satellite distributing data to users around the world.


JPSS

Visit the JPSS website »


Ensuring the continuity of satellite operations is critical to providing the data needed for weather forecasts and climate measurements. The president's FY 2011 budget request reflects the recent White House decision to improve federal management for the nation's next generation of polar orbiting satellite by restructuring the management of the program. The FY 2011 budget includes $1.1 billion in the NOAA budget for NOAA's portion of the program, the new Joint Polar Satellite System (JPSS).


Through the JPAA One Page PDFJoint Polar Satellite System (JPSS) , NOAA will be responsible for management and procurement of the satellites and instruments associated with the afternoon orbit, which is most critical to data for weather and climate. NOAA will contract with the National Aeronautics and Space Administration to accomplish some of these tasks. The Department of Defense will be responsible for the morning orbit that is critical to national defense. NOAA will continue its successful partnership with the Air Force by managing the ground systems development and operations of the Air Force satellites.


The instruments on JPSS will be similar to NPOESS. The program will continue the critical climate measurements of Earth radiation budget, total solar irradiance, and ozone profiling as had been re-manifested on the NPOESS program.


The restructured JPSS will continue to address NOAA's requirements to provide global environmental data used in numerical weather prediction models for forecasts, as well as provide space weather observations, search and rescue detection capabilities, and direct read-out and data collection products and services to customers. Data and imagery obtained from the JPSS will increase timeliness, accuracy, and cost-effectiveness of public warnings and forecasts of climate and weather events, thus reducing the potential loss of human life and property and advancing the national economy.


These changes to the NPOESS program will better ensure continuity of crucial civil climate observations and weather data in the future. Data from instruments on JPSS will be used to continue long-term, in some cases almost 50 years, of satellite-based climate data records. These data records are unified and coherent long-term environmental observations and products that are critical to climate modelers and decision makers concerned with advancing climate change understanding, prediction, mitigation and adaptation strategies, policies, and science. JPSS, with its global view, will play a vital role in continuing these climate data records.



GOES-R

Geostationary Operational Environmental Satellite-R Series (GOES-R) program is a key element of the National Oceanic and Atmospheric Administration's (NOAA) operations. As such, the GOES-R series of satellites will be comprised of improved spacecraft and instrument technologies, which will result in more timely and accurate weather forecasts, and improve support for the detection and observations of meteorological phenomena that directly affect public safety, protection of property, and ultimately, economic health and development. The first launch of the GOES-R series satellite is scheduled for 2015.


Valid XHTML 1.0 Transitional