Published March 3, 2022
| Version 20200306
Dataset
Open
The Surface Biology and Geology Architecture Study Science and Applications Traceability Matrix (SATM)
Authors/Creators
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Stavros, E. Natasha1
- Chrone, Jon2
- Cawse-Nicholson, Kerry1
- Freeman, Anthony1
- Glenn, Nancy F.3
- Guild, Liane4
- Kokaly, Raymond5
- Lee, Christine1
- Luvall, Jeffrey6
- Pavlick, Ryan1
- Poulter, Benjamin7
- Schollaert Uz, Stephanie7
- Serbin, Shawn8
- Thompson, David R.1
- Townsend, Philip A.9
- Turpie, Kevin10
- Yuen, Karen1
- Thome, Kurt7
- Wang, Weile3
- Zareh, Shannon-Kian1
- Nastal, Jamie1
- Bearden, David1
- Miller, Charles E.1
- Schimel, David1
- 1. Jet Propulsion Laboratory, California Institute of Technology
- 2. NASA Langley Research enter
- 3. Boisie State University
- 4. NASA Ames Research Center
- 5. United States Geological Survey
- 6. NASA Marshall Space Flight Center
- 7. NASA Goddard Space Flight Center
- 8. Brookhaven National Laboratory
- 9. University of Wisconsin-Madison
- 10. University of Maryland Baltimore County
Description
This dataset provides a synthesis of the National Academies of Sciences 2017 Earth Science Decadal Survey mission most and very important objectives for the Surface Biology and Geology Earth Observing system consisting of a global visible to shortwave infrared imaging spectrometer and a multi-spectral thermal infrared radiometer. These objectives are traced to performance criteria used for assessing hundreds of potential architecture variants in an architecture study outlined in a paper titled: "Designing an Observing System to Study the Surface Biology and Geology (SBG) of the Earth in the 2020s".
Files
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Additional details
Related works
- Is required by
- Preprint: 10.1002/essoar.10509039.1 (DOI)
- Journal article: 10.1029/2021JG006471 (DOI)