Many areas of scientific interest in planetaryexploration, such as lunar pits, icy-moon crevasses, and Martiancraters, are inaccessible to current wheeled rovers. Rappellingrovers can safely traverse these steep surfaces, but requiretechniques to navigate their complex terrain. This dynamicnavigation is inherently time-critical and communication constraints(e.g. delays and small communication windows) willrequire planetary systems to have some autonomy.Autonomous navigation for Martian rovers is well studiedon moderately sloped and locally planar surfaces, but thesemethods do not readily transfer to tethered systems in nonplanar3D environments. Rappelling rovers in these situationshave additional challenges, including terrain-tether interactionand its effects on rover stability, path planning and control.This paper presents novel traversability analysis and pathplanning algorithms for rappelling rovers operating on steepterrains that account for terrain-tether interaction and theunique stability and reachability constraints of a rapellingsystem. The system is evaluated with a series of simulations andan analogue mission. In simulation, the planner was shown toreliably find safe paths down a 55 degree slope when a stabletether-terrain configuration exists and never recommended anunsafe path when one did not. In a planetary analogue mission,elements of the system were used to autonomously navigateAxel, a JPL rappelling rover, down a 30 degree slope with95% autonomy by distance travelled over 46 meters.


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    Titel :

    Navigation on the Line: Traversability Analysis and Path Planning for Extreme-Terrain Rappelling Rovers


    Beteiligte:
    Nesnas, Issa (Autor:in) / Gammell, Jonathan D (Autor:in) / Patel, Vandan (Autor:in) / Lizewski, Jacob (Autor:in) / Greene, Rebecca J (Autor:in) / Brown, Travis (Autor:in) / Strub, Marlin P (Autor:in) / Paton, Michael (Autor:in)

    Erscheinungsdatum :

    2020-10-25


    Medientyp :

    Preprint


    Format :

    Keine Angabe


    Sprache :

    Englisch






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