SOURCEFORGE » RALF » 2014 Reception of weather images

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h1. 1. Brief history about NOAA satellites

The NOAA/POES satellites are monitored by the association _National Oceanic and Atmospheric Administration_. The NOAA was created in October 1970 for U.S. with the main purpose of provide information about the condition of the oceans and the atmosphere. Concretely, POES satellites send weather information to the _National Environmental Satellite, Data and Information Service_ (NESDIS), which processes and distributes it to the _National Weather Service_ (NWS). NWS is in charge of coordinating the possible warnings to the citizens. 

Before the NOAA agency, first meteorological satellite was launched on April 1960 with the purpose of capturing pictures of the Earth from other perspectives. This first mission was realized by NASA. The payload of the satellite, called TIROS 1, was equipped with two slow-scan television cameras, which take pictures of the Earth. During the next years, additional TIROS satellites were launched improving the technology of the instruments. From 1970 onwards, this industry has been managed and governed by NOAA. The organization recollects the data sent  by the satellites thanks to the NOAA's satellite system and all the information is archived and distributed to the users. The space segment of the system is provided by NASA. Concretely, the research laboratory _Goddard Space Flight Center_ (GSFC) built and launched the NOAA satellites with all desired instruments.

NOAA's system operates in two types of satellite systems. Both types are indispensable for a complete global weather network. On the one hand, _Geostationary Operational Environmental Satellite_ (GOES) provides continuous information in short-term of weather forecasting, severe storm tracking and meteorology research. These satellites deliver weather information always in the same place of the Earth. On the other hand, the _Polar Operational Environmental Satellite_ (POES) establishes a large-term link for a climate monitoring and weather predictions. 

From the beginning many satellites have been launched, but the current satellites have a higher level of performance on their sensors. Nowadays, the NOAA's environmental satellites contain the following nine sensors:

* *AVHRR/3* Advanced Very High Resolution Radiometer 

* *HIRS/4* High Resolution Infrared Sounder

* *AMSU-A* Advanced Microwave Sounding Unit - A

* *MHS* Microwave Humidity Sounder

* *SEM-2* Microwave Humidity Sounder 

* *SBUV/2* Solar Backscatter Ultraviolet Radiometer 

* *DCS 2* Data Collection system

* *SAR* Search&Rescue Instrument

* *DDR* Digital Data Recorder

Once the date is received from POES satellites, NESDIS’ Environmental Satellite Processing Center processes these signals into a set of environmental information products that are distributed to the NWS. ~[1]~

The following Figure 1.1 shows a schema with the different organizations and its involvement in the mission. 

p=. !{width: 70%}picture1_noaa_nasa.png!

*Figure 1.1*: Schematic of the different associations

The benefits proportioned by the environmental satellites are to improve the quality of human life and the protection of Earth's environment. The system is able to detect, forecast and monitoring severe storms and national disasters. Also, POES satellites contribute to save lives thanks to the S&R instruments, which are carried on the spacecraft.  

h1. 2. Poes satellites

The polar-orbiting satellites provide data with infrared and visible Earth images in large-term. There is an important advantage in the polar satellites because they recollect information and images of any place on the Earth. The main characteristics of the orbit are the following: 

Nowadays, the fifth generation of these satellites are situated in an altitude over 800 km and they have an inclination around 98^o^, depending of each one.  Its orbital periodic is approximately 102 minutes. Therefore, the satellite system is capable of offering 14 polar orbits a day. Each satellite captures different images of a particular place twice a day.

The data received from the POES series supports a broad range of environmental monitoring applications, including for example:

**  Climate research and prediction

**  Atmospheric soundings of humidity and temperature

**  Volcanic eruption monitoring

**  Land, ocean and atmospheric applications

Currently, a new generation was launched in 2011. The system called _Suomi National Polar-orbiting Partnership_ predicts severe weather days in advance. It is also used for measurements, as density of vegetation, clouds, ocean colour and surface temperatures.

The payload will be composed of five instruments: 

* ATMS (Advanced Technology Microwave Sounder)

* VIRS

* CrIS (Cross-track Infrared Sounder)

* OMPS  (Ozone Mapping Profiler Suite)

* CERES (Clouds and the Earth's Radiant Energy System)

A new satellite, called _JPSS-1_, will be launched by the JPSS program in early 2017. The system will be composed of five satellites; therefore, it will improve the accuracy and timeliness of weather event forecasts. JPSS will be able to provide advanced atmospheric temperature and pressure profiles. it will be able to improve the imaging capability to analyze national disasters. ~[2]~

[1] "Riverside Technology":http://www.google.es/url?sa=t&rct=j&q=&esrc=s&source=web&cd=4&ved=0CDoQFjAD&url=http%3A%2F%2Fwww.riverside.com%2FLinkClick.aspx%3Ffileticket%3DgcsIP5-quO0%253D%26tabid%3D121%26mid%3D718%26forcedownload%3Dtrue&ei=tPK_VP63Goa5UZengfAE&usg=AFQjCNGYY6IPyzdh3dYar3X5-Y9yXHkwOQ&sig2=tLd7T-IFats9bhj5HCyFLg&bvm=bv.83829542,d.d24

[2] "JPSS Mission":http://www.jpss.noaa.gov/satellites.html