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1 -Amadee-20-GEOS
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1 -AMADEE-20.WebHome
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1 -=== Details ===
2 -
3 -|**Acronym**|GEOS
4 -|**Description**|We identify the geological processes of the area with a series of
5 -geological techniques. The GEOS is comprised of four geoscience experiments Geomapping, Geomapping,Geomapping and Micrometeorite.
6 -|**Principal Investigator (PI)**|(((
7 -Seda Oezdemir
8 -
9 -E-mail: [[seda.ozdemirfritz@gmail.com>>mailto:seda.ozdemirfritz@gmail.com]]
10 -)))
11 -|**Organisation** |Austrian Space Forum
12 -|**Co-Investigators**|(((
13 -Anna Losiak, OeWF / Polish Academy of Sciences,
14 -
15 -E-mail: [[Anna.losiak@oewf.org>>mailto:Anna.losiak@oewf.org]]
16 -)))
17 -
18 -=== Summary ===
19 -
20 -[[image:1628955100292-831.png]]
21 -
22 -
23 -We identify the geological processes of the area with a series of
24 -geological techniques. Besides defining these processes, we
25 -significantly focus on Analog Astronauts geo-training
26 -applications on the field and to create a potential AA training
27 -model. The GEOS is comprised of four geoscience experiments:
28 -
29 -
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
35 -the AAs follow and the best sample locations. During the mission, the map will be improved by
36 -using the drone and rover outputs as well as AAs observations. After the mission pre- and post-
37 -mission maps will be compared to optimize and improve the mission preparation phase.
38 -
39 -
40 -**(2) Geosampling**: is the process of collecting data (e.g., rock and sand samples) from the sites
41 -in order to obtain an understanding of the geology of the field.
42 -The first two geoexperiments (geomapping and geosampling) are classic geological methods that
43 -we use to understand the natural environment by using compositions and the age of the rocks to
44 -determine the sequence of events.
45 -
46 -
47 -**(3) Geocompare:** compare spatial information acquisition strategies between people with varying
48 -levels of experience during the field work to determine how different people analyze spatial data
49 -(thematical/geological maps and the natural environment), and how to more efficiently teach this
50 -skill to both astronauts (-analog and -space) as well as field workers (e.g., geologists, civil
51 -engineers, biologists, etc.)
52 -
53 -
54 -**(4) Micrometeorite:** searches for micrometeorites within the collected sand samples in the field,
55 -aiming to find these highest flux extraterrestrial materials on the earth's surface. This experiment
56 -might provide a practical and achievable application which may also provide information about
57 -Mars' history as well as the solar system.
58 -
59 -
60 -=== Experiment Data ===
61 -
62 -(% style="height:10px; width:500px" %)
63 -|(% style="width:125px" %)**Date**|(% style="width:373px" %)**Files**
64 -|(% style="width:125px" %)[[2021-08-15>>https://mission.oewf.org/archive_downloads/amadee20/GEOS/2021-08-15]]|(% style="width:373px" %)file descr
65 -|(% style="width:125px" %)[[2021-10-12>>https://mission.oewf.org/archive_downloads/amadee20/GEOS/2021-10-12]]|(% style="width:373px" %)1 movie, 8x .jpeg
66 -
67 -
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