Changes for page Amadee-24-SAMPLE

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1		-Amadee-24-RAMSES
	1	+Amadee-24-SAMPLE

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1	1	=== Details ===
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3		-|**Acronym**|RAMSES
4		-|**Description**|Fully autonomous multi-sensor-based helicopter system capable of taking off from a charging dock atop a Mars rover, then conducting aerial reconnaissance for operator-requested POI inspection or autonomous terrain mapping before landing back on the rover to recharge.
5		-|**Principal Investigator (PI)**|Martin Scheiber ~| [[Martin.Scheiber@aau.at>>mailto:Martin.Scheiber@aau.at]]
6		-|**Organisation** |Control of Networked Systems Group, Institute of Smart System Technologies, University of Klagenfurt
7		-|**Co-Investigators**|(((
8		-Marim Faroun | [[mafaroun@edu.aau.at>>mailto:mafaroun@edu.aau.at]]
	3	+|**Acronym**|SAMPLE
	4	+|**Description**|Rover traversability, teleoperations for sample acquisition and transport to Hab using semi-autonomous traverse finding rover.
	5	+|**Principal Investigator (PI)**|Gerald Steinbauer-Wagne ~|  steinbauer@ist.tugraz.at
	6	+|**Organisation** |Lunar Zebro team, Delft University of Technology
	7	+|**Co-Investigators**|Lucie Ráčková ~| [[lucie.rackova@recetox.muni.cz>>mailto:lucie.rackova@recetox.muni.cz]]
9	9
10		-Tanguy Gerniers | [[t1gerniers@edu.aau.at>>mailto:t1gerniers@edu.aau.at]]
11		-)))
12		-
13	13	=== Summary ===
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17	17	[[image:ACT_manifest.png||height="266" width="399"]]
18	18	)))
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20		-In 2021, the first Uncrewed Aerial Vehicle (UAV) performed its first flight on Mars. With this flight, Ingenuity developed by NASA, proved that VTOL aircraft can operate under Martian conditions. However, furtherresearch and development is necessary to take out full advantage of flying vehicles during a Mars mission.
	16	+The use of remote-controlled robots may increase the safety, effectiveness, and efficiency of Martian exploration. Complex control is frustrating and distractive for the operator and negatively affectsefficiency and outcome of a task. To ensure the first mentioned attributes, HUMANISE (Human Machine Interaction, Stress, and Performance) addresses design, user experience and usability of rover controllers.
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22		-The Rover Aerial Mars Support and Exploration System (RAM-SES) is a technology system for future UAVs using an AI-based network to autonomously detect landing sites in Mars-like environments. With participation in AMADEE-24, RAMSES’s novel approach demonstrates the process of detecting visual points of interest, either scientifically or for safe UAV navigation.
	18	+The expected goal of HUMANISE is to gather information about the usability of rover controllers which contribute to the future design of such controllers. Usability shall be maximized so that the operator can primarily focus on the task and is not distracted by complicated interaction with the device or occurring errors. Findings of the experiment will be used to tailor future technology development which better suit the operators needs and thus promote efficiency and effectiveness.
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24		-The expected outcome is to utilize an AI-based network togenerate a heat map for successfully detecting landing sites inthe mission area. Additionally, the system contains gener-ated pixel-wise maps and provides comprehensive and detaileddepictions of scientific points of interest in Mars-like environments. RAMSES evaluates data gathered by other robotic vehicles to create the aforementioned heat map and points of interest. In turn, this data can enhance the mission capabilities ofother teams to further demonstrate collaboration between experiments.
	20	+Three different rover controllers will be tested by at least four analog astronauts in proximity to the rover. In the experiment, the analog astronaut is expected to perform different tasks. Consistency in the task and in the setting ensure objective comparability of the controllers in terms of its usability. Qualitive as well as quantities methods will be applied during AMADEE-24 mission. Standard questionnaires and biometrics will be applied for quantitative analysis. Interviews and video recordings will be interpreted for qualitative analysis.
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26		-To achieve the defined experiment objectives within AMADEE-24,RAMSES focuses on evaluating data gathered by the SAMPLE experiment. With the help of the ground truth of the mission area data,we are able to compare the system’s pixel-wise map coordinates andimprove the precision of the location of notable features for scientific research in order to contribute to the advancement of scientificknowledge about the environment. In the context of collaborative experimentation, RAMSES shall be subjected to proof-of-concept teststhat aim to exhibit its capabilities in supporting AMADEE-24 andfuture missions.
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30	30	=== Experiment Data ===
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