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DSCOVR w EPIC cam, PlasMag & NISTAR
The Earth science data will be processed at NASA’s DSCOVR Science Operations Center and archived and distributed by NASA’s Atmospheric Science Data Center.
Earth Polychromatic Imaging Camera (EPIC)
http://www.nasa.gov/content/goddard/noaas-dscovr-to-provide-epic-views-of-earth/
------------
http://www.nesdis.noaa.gov/DSCOVR/
http://mediaarchive.ksc.nasa.gov/search.cfm?cat=278%C2%A0%C2%A0%C2%A0
Modern-day Blue Marble-like photos have to be stitched together from composite images. (The default iPhone background is one of these composites.)
Triana was a satellite meant to sit at L1. NASA collaborated with NOAA and the U.S. Air Force to retrofit it and give it the sensors needed to track space weather. It also renamed it: Triana became DSCOVR. And the satellite’s primary mission was switched, too: It would now mostly monitor space weather, with a secondary mission of observing the Earth.
Q: Is this an operational or research satellite?   
A: DSCOVR's primary mission is space weather. It is an operational mission for NOAA while the NASA instruments have more of a science role. The NASA instruments are research oriented.
Q: How long is the DSCOVR mission? 
A:  It is planned for a 2-year mission with fuel that can last 5 years.
Q:  What frequency of space weather events require responses?
A: DSCOVR will be looking for high-speed solar winds that can cause problems and damages to satellites. Space weather from CMEs cause most damage. Storms are fairly common, but warnings help reduce impacts.
Q: Can you give an example of widely-felt CME impact?
A: One CME event affected an aviation system and changed way aircraft approaches are done. Another system was knocked off line for months. The Carrington event (1859) caused massive damage to the telegraph system of the day, and would be devastating today to modern computer systems and the power grid without early warning.
Q: What is the difference between ACE and DSCOVR?
A: ACE was a 9-instrument solar research satellite launched in August 1997, while DSCOVR is a 3-instrument solar operational satellite (and a 6 instrument research satellite. There are 2 Earth science instruments, and minor Pulse Height Analyzer instrument to study effect of space weather and cosmic rays on electronics.). Both spacecraft transmit solar wind particle and magnetic field data in real time to the NOAA Space Weather Prediction Center. As an operational spacecraft, the DSCOVR instrumentation is more robust against outages caused by solar storms. Less significantly, DSCOVR provides faster cadence, once every 10 seconds data as opposed to ACE’s once every 1 minute.
A: It takes 115 days to reach orbit in L-1 or Lagrange 1 point. NASA will likely hand over DSCOVR to NOAA in mid-summer timeframe.
http://www.nasa.gov/content/goddard/noaas-dscovr-to-provide-epic-views-of-earth/#.VNzn9C744Rk
"Unlike personal cameras, EPIC will take images in 10 very narrow wavelength ranges," said Adam Szabo, DSCOVR project scientist at NASA's Goddard Space Flight Center, Greenbelt, Maryland. "Combining these different wavelength images allows the determination of physical quantities like ozone, aerosols, dust and volcanic ash, cloud height, or vegetation cover. These results will be distributed as different publicly available data products allowing their combination with results from other missions."
------
Q: Have modifications been made to EPIC to enhance its Earth science measurements?
A: Original EPIC instrument concept is similar to current configuration. Improvements were made in all narrow-length wavelength bands to reduce stray light and to add new cloud height measurements. Ozone, aerosols, cloud amount, and vegetation were all in original design. Wavelength changes were made based on other earth-observing satellites over the last 15 years. Earth science data will be obtained about every 2 hours and downloaded to earth whenever the large Wallops Island antenna is in view.
The DSCOVR mission is a partnership between NOAA, NASA, and the U.S. Air Force. NOAA will operate DSCOVR from its NOAA Satellite Operations Facility in Suitland, Maryland, and process data at NOAA's Space Weather Prediction Center (SWPC) in Boulder, Colorado, for distribution to users within the United States and around the world. The data will be archived at NOAA’s National Geophysical Data Center also in Boulder. The U.S. Air Force is providing the launch vehicle for the DSCOVR mission and the responsibility for all launch vehicle associated mission assurance.
NASA received funding from NOAA to refurbish the DSCOVR spacecraft and its solar wind instruments, develop the ground segment, and manage launch and activation of the satellite. The Air Force funds and oversees the launch services for DSCOVR. DSCOVR will also host NASA-funded secondary sensors for Earth and space science observations. The Earth science data will be processed at NASA’s DSCOVR Science Operations Center and archived and distributed by NASA’s Atmospheric Science Data Center.
[[Category:Green Graphics]]
[[Category:Green Graphics]]
[[Category:Earth Science]]
[[Category:Earth Science]]
[[Category:Earth360]]
[[Category:Earth360]]
[[Category: Whole Earth]]

Revision as of 00:52, 13 February 2015

DSCOVR w EPIC cam, PlasMag & NISTAR

The Earth science data will be processed at NASA’s DSCOVR Science Operations Center and archived and distributed by NASA’s Atmospheric Science Data Center. Earth Polychromatic Imaging Camera (EPIC)

http://www.nasa.gov/content/goddard/noaas-dscovr-to-provide-epic-views-of-earth/


http://www.nesdis.noaa.gov/DSCOVR/

http://mediaarchive.ksc.nasa.gov/search.cfm?cat=278%C2%A0%C2%A0%C2%A0


Modern-day Blue Marble-like photos have to be stitched together from composite images. (The default iPhone background is one of these composites.)

Triana was a satellite meant to sit at L1. NASA collaborated with NOAA and the U.S. Air Force to retrofit it and give it the sensors needed to track space weather. It also renamed it: Triana became DSCOVR. And the satellite’s primary mission was switched, too: It would now mostly monitor space weather, with a secondary mission of observing the Earth.

Q: Is this an operational or research satellite? A: DSCOVR's primary mission is space weather. It is an operational mission for NOAA while the NASA instruments have more of a science role. The NASA instruments are research oriented. Q: How long is the DSCOVR mission? A: It is planned for a 2-year mission with fuel that can last 5 years. Q: What frequency of space weather events require responses? A: DSCOVR will be looking for high-speed solar winds that can cause problems and damages to satellites. Space weather from CMEs cause most damage. Storms are fairly common, but warnings help reduce impacts. Q: Can you give an example of widely-felt CME impact? A: One CME event affected an aviation system and changed way aircraft approaches are done. Another system was knocked off line for months. The Carrington event (1859) caused massive damage to the telegraph system of the day, and would be devastating today to modern computer systems and the power grid without early warning. Q: What is the difference between ACE and DSCOVR? A: ACE was a 9-instrument solar research satellite launched in August 1997, while DSCOVR is a 3-instrument solar operational satellite (and a 6 instrument research satellite. There are 2 Earth science instruments, and minor Pulse Height Analyzer instrument to study effect of space weather and cosmic rays on electronics.). Both spacecraft transmit solar wind particle and magnetic field data in real time to the NOAA Space Weather Prediction Center. As an operational spacecraft, the DSCOVR instrumentation is more robust against outages caused by solar storms. Less significantly, DSCOVR provides faster cadence, once every 10 seconds data as opposed to ACE’s once every 1 minute. A: It takes 115 days to reach orbit in L-1 or Lagrange 1 point. NASA will likely hand over DSCOVR to NOAA in mid-summer timeframe. http://www.nasa.gov/content/goddard/noaas-dscovr-to-provide-epic-views-of-earth/#.VNzn9C744Rk "Unlike personal cameras, EPIC will take images in 10 very narrow wavelength ranges," said Adam Szabo, DSCOVR project scientist at NASA's Goddard Space Flight Center, Greenbelt, Maryland. "Combining these different wavelength images allows the determination of physical quantities like ozone, aerosols, dust and volcanic ash, cloud height, or vegetation cover. These results will be distributed as different publicly available data products allowing their combination with results from other missions."


Q: Have modifications been made to EPIC to enhance its Earth science measurements? A: Original EPIC instrument concept is similar to current configuration. Improvements were made in all narrow-length wavelength bands to reduce stray light and to add new cloud height measurements. Ozone, aerosols, cloud amount, and vegetation were all in original design. Wavelength changes were made based on other earth-observing satellites over the last 15 years. Earth science data will be obtained about every 2 hours and downloaded to earth whenever the large Wallops Island antenna is in view.

The DSCOVR mission is a partnership between NOAA, NASA, and the U.S. Air Force. NOAA will operate DSCOVR from its NOAA Satellite Operations Facility in Suitland, Maryland, and process data at NOAA's Space Weather Prediction Center (SWPC) in Boulder, Colorado, for distribution to users within the United States and around the world. The data will be archived at NOAA’s National Geophysical Data Center also in Boulder. The U.S. Air Force is providing the launch vehicle for the DSCOVR mission and the responsibility for all launch vehicle associated mission assurance.

NASA received funding from NOAA to refurbish the DSCOVR spacecraft and its solar wind instruments, develop the ground segment, and manage launch and activation of the satellite. The Air Force funds and oversees the launch services for DSCOVR. DSCOVR will also host NASA-funded secondary sensors for Earth and space science observations. The Earth science data will be processed at NASA’s DSCOVR Science Operations Center and archived and distributed by NASA’s Atmospheric Science Data Center.

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current00:46, 13 February 2015Thumbnail for version as of 00:46, 13 February 20151,219 × 785 (1.49 MB)Siterunner (talk | contribs)Category:Green Graphics Category:Earth Science Category:Earth360