Lunar construction is an expanding field within NASA’s Moon to Mars objectives that presents many challenges and requires innovative and reliable forms of autonomous operations on the surface of the Moon to further the technologies needed for human space exploration. Marshal Space Flight Center’s (MSFC) Advanced Concepts Office (ACO) addressed Lunar Infrastructure Objective LI-4l by developing a Pre-Phase A, integrated architecture to inform a demonstration for lunar construction operations. The ACO study traded three architectures that would survey and prepare a construction area to build a landing pad out of lunar regolith using MMPACT (Moon-to-Mars Planetary Autonomous Construction Technology) platforms, rovers, and navigation outposts. The main trades examined navigation for the system/architecture, options for rover navigation, battery vs continuous tether power for the MMPACT robotic arm, and assigning site prep functionality to the rovers vs the platforms. Results of the study determined that the best options for the scenario provided would be local navigation (more accurate and continuous), a combination of Light Detection and Ranging (LiDAR) for initial site mapping with subsequent Smart Video Guidance Sensors (SVGS) to save power for construction, and using tethered power to decrease mission duration. The team also concluded that assigning site prep functionality to either the rovers or the platforms has benefits and challenges; future studies could explore having that functionality on both the rovers and platforms. Lastly, the team provided a Concept of Operations (ConOps) timeline that can be used in real-time ground demonstrations to explore the mission timeline, construction processes, autonomous operations, and communication systems that can be tested using MSFC’s lunar regolith field and Lunar Utilization Control Area (LUCA).


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    Titel :

    An Integrated Architecture Study for Autonomous Lunar Construction


    Beteiligte:
    Sarah Triana (Autor:in) / Thomas Brooks (Autor:in) / Krystofer Dudzinski (Autor:in) / Mike Zanetti (Autor:in) / Alex Summers (Autor:in) / Evan Anzalone (Autor:in) / Michael Fritzinger (Autor:in) / Cameron Bradley (Autor:in) / Leo Fabisinski (Autor:in) / Peter Capizzo (Autor:in)

    Kongress:

    Lunar Surface Innovation Consortium Spring Meeting ; 2024 ; Laurel, MD, US


    Erscheinungsdatum :

    2024-04-17


    Medientyp :

    Sonstige


    Format :

    Keine Angabe


    Sprache :

    Englisch