Wiki source code of Amadee-20-GEOS

Version 15.1 by Daniel Valtiner on 2021/10/24 14:34
Show last authors
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, 14x .jpeg (consisting of GEOS and GEOS  Compare)
66 |(% style="width:125px" %)[[2021-10-13>>https://mission.oewf.org/archive_downloads/amadee20/GEOS/2021-10-13]]|(% style="width:373px" %)2x .jpeg
67 |(% style="width:125px" %)[[2021-10-19>>https://mission.oewf.org/archive_downloads/amadee20/GEOS/2021-10-19]]|(% style="width:373px" %)EVA + LAB folders with recordings and lots of photos
68
69
Copyright 2018 - Ă–sterreichisches Weltraum Forum. All rights reserved.