<
From version < 2.1 >
edited by David Gschliesser
on 2021/08/14 17:32
To version < 6.1 >
edited by Dominik Rabl
on 2021/08/15 09:57
>
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1 -XWiki.dgschliesser
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27 27  model. The GEOS is comprised of four geoscience experiments:
28 28  
29 29  
30 -**(1) Geomapping**: establishing the geological map of the working
31 -area, the area before the mission to determine the geological
32 -and topographical features. These pre-identified features will
33 -work as the guide, and fieldwork will provide a detailed view of a site; e.g., the optimized path that
30 +**(1) Geomapping**: establishing the geological map of the working area, the area before the mission
31 +
32 +to determine the geological and topographical features. These pre-identified features will work as the guide,
33 +
34 +and fieldwork will provide a detailed view of a site; e.g., the optimized path that
34 34  the AAs follow and the best sample locations. During the mission, the map will be improved by
35 35  using the drone and rover outputs as well as AAs observations. After the mission pre- and post-
36 36  mission maps will be compared to optimize and improve the mission preparation phase.
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54 54  aiming to find these highest flux extraterrestrial materials on the earth's surface. This experiment
55 55  might provide a practical and achievable application which may also provide information about
56 56  Mars' history as well as the solar system.
58 +
59 +
60 += Experiment Data =
61 +
62 +(% style="height:10px; width:500px" %)
63 +|**Date**|**Files**
64 +|[[2021-08-15>>https://mission.oewf.org/archive_downloads/amadee18/21-RockSamples/amadee20/GEOS/2021-08-15]]|file descr
65 +| |
66 +
67 +
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