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Measurement of proton and electron flux at orbit altitude, remote platform data collection and the Search and Rescue Satellite-aided Tracking system (SARSAT) are also supported. NOAA-M will be the third in the series to support a new suite of dedicated microwave instruments to generate improved temperature and moisture profiles and surface and hydrological products in cloudy regions where visible and infrared instruments have decreased capability.
The NOAA satellite series is designed for a twoyear mission life, but historically, they have averaged a lifetime almost twice as long. The satellite has a threeaxis body stabilized design. This enables the satellite to point accurately toward the Earth and provide continuous global images of cloud cover; surface parameters such as snow, ice and vegetation; and atmospheric temperatures, moisture and aerosol distributions. The satellite is also able to collect and relay information from fixed and moving data platforms, such as buoys, freefloating balloons and remote weather stations.
Each satellite consists of an imaging system, the Advanced Very High Resolution Radiometer and a sounding suite of instruments consisting of the High Resolution Infrared Radiation Sounder and the Advanced Microwave Sounding Units, one for temperature profiles and one for moisture profiles.
The NOAA satellites also include a Space Environment Monitor that provides measurements to determine the intensity of the Earth's radiation belts and the flux of charged particles at the satellite altitude. The monitor warns of solar wind occurrences that may impair long-range communication or high-altitude operations, damage satellite circuits and solar panels, or change drag and magnetic torque on satellites.
Also flying on NOAA-M is the Solar Backscatter Ultraviolet Radiometer. Both an imager and a sounder, the Radiometer produces total ozone maps and measures the ozone distribution in the atmosphere as a function of altitude. In the past, the Radiometer has not flown in the morning POES satellite, but the new 10:00 a.m. orbit permits the collection of ozone data.
Avery important mission of these spacecraft is that of lifesaving. Each polar-orbiting NOAA satellite, except NOAA-12, is equipped with a SARSAT system, which receives emergency beacons from ships and aircraft in distress. SARSAT is part of an international satellite system for search and rescue that includes the NOAA spacecraft and the Russian-provided satellite COSPAS. The system consists of the satellites in polar orbit and an international network of Earth stations, which provide global distress alert and location information to appropriate rescue authorities for maritime, aviation and land users in distress. SARSAT has been attributed to saving more than 12,000 lives since it became operational in November 1982.
Orbit and Command
The nominal orbit is Sun-synchronous and rotates eastward about the Earth's polar axis 0.986 degrees per day, approximately the same rate and direction as the Earth's average daily rotation about the Sun. The rotation keeps the satellite in a constant position with reference to the Sun for constant illumination throughout the year. NOAA-M will be launched at approximately 2:22 p.m. Eastern Daylight Time (11:22 a.m. Pacific Daylight Time) so that it will cross the Equator at about 10:00 p.m. northbound and 10:00 a.m. southbound local solar time.
The NOAA Satellite Operations Control Center in Suitland, Maryland, provides spacecraft scheduling, health and safety monitoring and engineering analyses. NOAA's Command and Data Acquisition stations are located at Wallops, Virginia, and at Fairbanks, Alaska.
NOAA processes the data in the NOAA Central Environmental Satellite Computer System and delivers it to the National Weather Service's National Centers for Environmental Prediction in Camp Springs, Maryland, National Weather Service forecast offices across the United States, other Federal agencies, and to public and private users worldwide.