Abstract
Mars and Moon analog field missions are established tools to investigate the potential of instruments, workflows, materials and human factors for characterizing the astrobiological potential and geoscientific context of planetary surfaces. Historically, there is a broad spectrum on both the scientific focus and the performance parameters for analog missions. This applies specifically where mission performance parameters of a coordinated deployment of mission assets (e.g. rovers, human crewmembers or scientific instruments) is studied. We argue that scientific priorities and workflows shall be consolidated at an early planning stage of deep space missions while they can still impact the mission architecture design process. It is to be expected that a human-robotic mission to Mars or the Moon will include multiple field assets such as human explorers, robotic vehicles including aerial reconnaissance, mobility assets, habitat modules, stationary instruments and engineering elements for power, communication and in-situ resource utilization. These require more complex asset coordination compared to single-rover planetary rover missions. Therefore, we advocate an “Exploration Cascade” which helps to manage these multiple assets to optimize the scientific return of planetary surface missions, to search for extinct and-/or for extant traces of life and to characterize the geoscientific context of the sites of interest.
Highlights
Analog Missions as a Training ToolHuman-robotic Mars missions are likely to be launched within the 2–3 decades
It could be argued that robotic exploration is a more efficient tool than human explorers to study planetary surfaces concerning the scientific aspect
It is to be expected that a human-robotic mission to Mars will include multiple field assets ranging from human explorers, aerial and surface robotic vehicles, human mobility, habitat modules, stationary instruments and engineering elements for power, communication, and in-situ resource utilization
Summary
Reviewed by: Felipe Gómez, Centro de Astrobiología (CSIC-INTA), Spain Akos Kereszturi, Research Centre for Astronomy and Earth Sciences, Hungary Jesús Martínez-Frías, Consejo Superior de Investigaciones Científicas (CSIC), Spain. Mars and Moon analog field missions are established tools to investigate the potential of instruments, workflows, materials, and human factors for characterizing the astrobiological potential and geoscientific context of planetary surfaces. It is to be expected that a human-robotic mission to Mars or the Moon will include multiple field assets such as human explorers, robotic vehicles including aerial reconnaissance, mobility assets, habitat modules, stationary instruments, and engineering elements for power, communication, and in-situ resource utilization. These require more complex asset coordination compared to single-rover planetary missions.
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