Optical borehole-wall analysis – Useful method for planetary environment reconstruction
Author:
Publisher
Elsevier BV
Subject
Aerospace Engineering
Reference48 articles.
1. Human performance data in a high workload environment during the simulated Mars expedition “AustroMars”;Groemer;Acta Astronaut.,2010
2. Geological Trainings for Analogue Astronauts: Lessons Learned from MARS2013 Expedition, Morocco;Orgel,2013
3. The MA_MISS experiment on board the ExoMars Rover;De Sanctis;Eur. Planet. Sci. Congr.,2017
4. Characterization and first results of the planetary borehole-wall imager – methods to develop for in-situ exploration;Kereszturi;Open Astron.,2019
5. Mars-relevant field experiences in Morocco: the importance of spatial scales and subsurface exploration;Kereszturi;Astrobiology,2018
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