Changes for page Amadee-24-GEOS-24

Summary

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Details

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1		-Amadee-24-Staying Alive
	1	+Amadee-24-GEOS-24

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1	1	=== Details ===
2	2
3		-|**Acronym**|<Experiment name>
4		-|**Description**|short description of the experiment (Manifest)
5		-|**Principal Investigator (PI)**|the name of the PI (Manifest) ~| mail adress
6		-|**Organisation** |Institute, university, company where the experiment was developed (Manifest)
7		-|**Co-Investigators**|name of co-investigators (Manifest) ~| mail adress
	3	+|**Acronym**|GEOS-24 -Geological Exploration and Observation System
	4	+|**Description**|Application of the Exploration Cascade & Sampling strategy, geomapping & IR/RAMAN spectroscopy
	5	+|**Principal Investigator (PI)**|Seda Özdemir-Fritz ~| [[seda.ozdemirfritz@oewf.org>>mailto:seda.ozdemirfritz@oewf.org]]
	6	+|**Organisation** |Austrian Space Forum
	7	+|**Co-Investigators**|(((
	8	+Alessandro Frigeri | [[alessandro.frigeri@inaf.it>>mailto:alessandro.frigeri@inaf.it]]
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	10	+Selina Schindler | [[selina.schindler@oewf.org>>mailto:selina.schindler@oewf.org]]
	11	+
	12	+Francesca Willcocks | [[francesca.willcocks@oewf.org>>mailto:francesca.willcocks@oewf.org]]
	13	+)))
	14	+
9	9	=== Summary ===
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13	13	[[image:ACT_manifest.png||height="266" width="399"]]
14	14	)))
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16		-The summary is taken from the manifest by copy / paste. The following text is just for demonstrating purpose!
	22	+The GEOS-24 (Geological Exploration and Observation System-2024) experiment focuses on geologic surveying at a simulated Martian landing site. Inspired by the Apollo lunar field surveys simulates the study of the Martian geology, combing classical and advances technologies. AAs and rovers collaboratively survey, with mapping providing a foundation, sampling offering ground truth, and compositional measurements delving into the detailed characteristics of Martian rocks and terrain. This experiment comprises mapping, sampling, andcompositional measurements as integral components.
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18		-Astronauts are at all times required to provide outstanding performance. They are to remain resilient and to maintain their psychological well-being in order to successfully accomplish their mission in extreme and isolated environments. Future Martian explorers therefore have to be selected and trained to be able to deal with such environments and to be able to maintain an adaptive and resilient mind-set, communicate with others efficiently and pro-actively, process and accept worries and sadness, and to stay persistent with respect to the goals of the mission.
	24	+**Geomapping:** __Pre-Mission:__ Geomapping establishes a preliminary geological map through orbital remote sensing, creating large-scale maps, incorporating terrain hazards, and providing a guide for subsequent activities. These maps serve as guides for Analog Astronauts and rovers, outlining optimised transects and key sampling locations based on remote sensing observations. __Syn-Mission Operation:__ During the mission, AAs contribute to refining the geological map using real-time data from drones, rovers, and their own observations, ensuring adaptability to the dynamic Martian landscape. __Post-Mission Output:__ The final cartographic output synthesizes the spatial distribution of scientific observations
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20		-In the course of the experiment, all six analog astronauts will be trained in Acceptance and Commitment Therapy (ACT). In a wide range of studies, ACT has proven to increase people’s psychological flexibility; this is, their ability to pursue their important goals, even when they experience thoughts, feelings, fears, and emotions that may get in the way of their moving towards those goals. The ACT training will focus on providing key, practical skills that the participants can use in carrying out their daily activities, as well as in interacting with their colleagues. This study aims to assesses the ability of ACT to improve participants’ psychological flexibility, stress and well-being, performance and error measures, narrative contents and communication patterns, cognitive and physiological outcomes.
	26	+**Geosampling:** AAs and rovers undertake rock and terrain sampling along predefined transects outlined on base maps provided by RSS and FP for EVAs. Geosampling involves collecting rock and soil samples to understand the history and composition of the Martian surface as well as the sequence of events and mineralogy. Some of the samples return to the simulated Martian habitat, while others are earmarked for more advanced laboratory analyses.
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22		-The study will use a pre - post-test design. The pre-test will be completed by the participants before the ACT training, a post-test after completing the training. Further, a follow-up measure will be taken from participants at the end of their mission. Additional qualitative data will be collected from the analog astronauts in form of a diary.
	28	+**GeoSpectro (IR and RAMAN): **In-situ and In-habitat compositional sample analysis offer initial insights into the mineralogy and geochemistry. IR (Infrared): An Infrared (IR) spectrometer is mounted on the rover, enhancing the GeoSpectro phase, enabling the real-time analysis of the mineral composition of surface materials, without the need for physical sample collection. RAMAN: In habitat identification and characterization of the chemical composition of samples adds a layer of detail to the understanding of Martian materials.
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	30	+As the preliminary results of the GEOS-24 experiment unfold, we contribute to our understanding of Mars' geologic history, mineral composition, and potential habitability.
	31	+
24	24	=== Experiment Data ===
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