Wiki source code of Amadee-20-GEOS
Version 6.1 by Dominik Rabl on 2021/08/15 09:57
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2.1 | 1 | === Details === |
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| 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]] | ||
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| 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: | ||
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3.1 | 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 | ||
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2.1 | 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. | ||
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| 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. | ||
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| 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. | ||
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4.1 | 58 | |
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5.1 | 60 | = Experiment Data = |
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4.1 | 62 | (% style="height:10px; width:500px" %) |
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5.1 | 63 | |**Date**|**Files** |
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6.1 | 64 | |[[2021-08-15>>https://mission.oewf.org/archive_downloads/amadee18/21-RockSamples/amadee20/GEOS/2021-08-15]]|file descr |
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