Changes for page Dachstein 2012

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4 4  Preparing for a large OeWF field mission in February 2013 in Northern Africa, the Dachstein test was ...
5 5  
6 6  * a full systems check-out for the spacesuit simulator Aouda.X in its most recent configuration,
7 -
8 8  * an opportunity for external teams to study equipment behaviour involving the simultaneous usage of different instruments with the option of a human-in-the-loop,
9 -
10 10  * a platform for performing ground validations and terrain tests for experiments, including rovers and study concepts of enhancing the situational awareness of remote support teams.
11 11  
12 -Secondary aims included
10 +Secondary aims included:
13 13  
14 14  * studying the Dachstein caves as a model region for Martian caves and extreme life,
15 -
16 16  * serving as a platform for outreach
17 17  
18 -
19 19  List of Experiments:
20 20  
21 21  |=name|=description|=organisation|=pi
22 -|[[A.X MAT/EP>>url:https://mission.oewf.org/archive/index.php/dachstein/axmatep]]|Medical monitoring tool – continuation of the Rio Tinto 2011 medical survey protocol|Medical Univ. of Innsbruck|Ulrich Luger
23 -|[[Antipodes>>url:https://mission.oewf.org/archive/index.php/dachstein/antipodes]]|Simulation of a two-landing teams on Mars scenario – command handover for a remote science experiment.
|Kiwispace|Kiwispace New Zealand / OeWF (joint operations)
24 -|[[AoudaX>>url:https://mission.oewf.org/archive/index.php/dachstein/aoudax]]|Suit-subsystems check-out, field test of telemetry receiving station – subsystem commissioning & voice recognition.|Austrian Space Forum|Dr. Gernot Grömer
25 -|[[Asimov Jr. R3>>url:https://mission.oewf.org/archive/index.php/dachstein/asimov]]|Chassis and drive-train tests for the GLXP lunar rover prototype.|Part Time Scientists (Google Lunar X-Prize)|Daniel Ziegenberg
26 -|[[Asset planning>>url:https://mission.oewf.org/archive/index.php/dachstein/assetplan]]|Field testing of a planning algorithm for traverse, consumables and hardware planning|Univ. of Innsbruck, Austria|Sebastian Hettrich & Alejandra Sans
27 -|[[CRV / Cliffbot>>url:https://mission.oewf.org/archive/index.php/dachstein/cliffbot]]|Concept rover for studying steep terrain and cliffs|Association Planète Mars|Alain Souchier
28 -|[[ERAS C3 Simulator>>url:https://mission.oewf.org/archive/index.php/dachstein/erasc3simu]]|A Mars-analog Command, Control and Communication (C3) infrastructure providing processing and communications capabilities|Mars Society Italy|Franco Carbognani
29 -|[[EXOMARS/WISDOM>>url:https://mission.oewf.org/archive/index.php/dachstein/exomars-wisdom]]|Ground validation for the ESA EXOMARS georadar under varying terrains|LATMOS/IPSL, France|Valérie Ciarletti
30 -|[[ILEWG EuroMoonMars Dachstein>>url:https://mission.oewf.org/archive/index.php/dachstein/ilewg]]|Support to human factor studies, following protocol tested during ILEWG EuroMoonMars campaign in Utah as well as sterile collection of samples for PCR and phylogenetic analysis Simulation of a two-landing teams on Mars scenario – command handover for a remote science experiment.
A Mars-analog Command, Control and Communication (C3) infrastructure providing processing and communications capabilities|Vrije Universiteit Amsterdam|Exp. A: Rai Balwant, Exp. B: Luisa Rodrigues
31 -|[[MAGMA 2>>url:https://mission.oewf.org/archive/index.php/dachstein/magma2]]|Operational tests and demonstration of the winning rover of the University Rover Challenge|Polish Mars Society|Sebastian Meszyński
32 -|[[PRoVisG Cave 3D Reconstruction>>url:https://mission.oewf.org/archive/index.php/dachstein/provisg-cave-3d-construction]]|3d TOF-camera for surveying parts of the cave with a high-resolution SLR camera|Joanneum Research, Austria|Gerhard Paar; Kathrin Sander
33 -|[[Terbium luminescence assay>>url:https://mission.oewf.org/archive/index.php/dachstein/terbium]]|Studying contamination vectors and germination rates of water/soil samples within the cave.|NASA/Jet Propulsion Lab|Adrian Ponce
34 -
18 +|[[A.X MAT/EP>>doc:Dachstein 2012.A\.X MAT EP.WebHome]]|Medical monitoring tool – continuation of the Rio Tinto 2011 medical survey protocol|Medical Univ. of Innsbruck|Ulrich Luger
19 +|[[Antipodes>>doc:Dachstein 2012.Antipodes.WebHome]]|Simulation of a two-landing teams on Mars scenario – command handover for a remote science experiment.
|Kiwispace|Kiwispace New Zealand / OeWF (joint operations)
20 +|[[AoudaX>>doc:Dachstein 2012.AoudaX Spacesuit.WebHome]]|Suit-subsystems check-out, field test of telemetry receiving station – subsystem commissioning & voice recognition.|Austrian Space Forum|Dr. Gernot Grömer
21 +|Asimov Jr. R3|Chassis and drive-train tests for the GLXP lunar rover prototype.|Part Time Scientists (Google Lunar X-Prize)|Daniel Ziegenberg
22 +|Asset planning|Field testing of a planning algorithm for traverse, consumables and hardware planning|Univ. of Innsbruck, Austria|Sebastian Hettrich & Alejandra Sans
23 +|CRV / Cliffbot|Concept rover for studying steep terrain and cliffs|Association Planète Mars|Alain Souchier
24 +|ERAS C3 Simulator|A Mars-analog Command, Control and Communication (C3) infrastructure providing processing and communications capabilities|Mars Society Italy|Franco Carbognani
25 +|EXOMARS/WISDOM|Ground validation for the ESA EXOMARS georadar under varying terrains|LATMOS/IPSL, France|Valérie Ciarletti
26 +|ILEWG EuroMoonMars Dachstein|Support to human factor studies, following protocol tested during ILEWG EuroMoonMars campaign in Utah as well as sterile collection of samples for PCR and phylogenetic analysis Simulation of a two-landing teams on Mars scenario – command handover for a remote science experiment.
A Mars-analog Command, Control and Communication (C3) infrastructure providing processing and communications capabilities|Vrije Universiteit Amsterdam|Exp. A: Rai Balwant, Exp. B: Luisa Rodrigues
27 +|MAGMA 2|Operational tests and demonstration of the winning rover of the University Rover Challenge|Polish Mars Society|Sebastian Meszyński
28 +|PRoVisG Cave 3D Reconstruction|3d TOF-camera for surveying parts of the cave with a high-resolution SLR camera|Joanneum Research, Austria|Gerhard Paar; Kathrin Sander
29 +|Terbium luminescence assay|Studying contamination vectors and germination rates of water/soil samples within the cave.|NASA/Jet Propulsion Lab|Adrian Ponce
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