Planetary rover mobility simulation on soft and uneven terrain

Rovers on Mars or the Moon for planetary exploration are obtaining increased importance within the spaceflight nations. To achieve full mission success, drivability and mobility in all kinds of complex motion scenarios have to be guaranteed. Here, proper modelling and understanding of the complex wh...

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Veröffentlicht in:	Vehicle system dynamics 2010-01, Vol.48 (1), p.149-169
Hauptverfasser:	Schäfer, Bernd, Gibbesch, Andreas, Krenn, Rainer, Rebele, Bernhard
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer simulation Contact Dynamical systems Dynamics Missions Modelling multi-body dynamics planetary rover polygon contact model soft soil contact model Soil (material) terramechanics validation
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creator	Schäfer, Bernd Gibbesch, Andreas Krenn, Rainer Rebele, Bernhard
description	Rovers on Mars or the Moon for planetary exploration are obtaining increased importance within the spaceflight nations. To achieve full mission success, drivability and mobility in all kinds of complex motion scenarios have to be guaranteed. Here, proper modelling and understanding of the complex wheel-soil interaction, i.e. the terramechanics for flexible and rigid wheels interacting with hard, soft and loose soil, are a major driver for supporting reliable rover design and assisting in testing of the flight model. This paper deals with the terramechanical characteristics for wheel-soil contact dynamics modelling and simulation and its experimental validation on the basis of the future European Mars rover mission ExoMars. The physical contact models are integrated by a multi-body system approach and the performance of the rover mobility will be shown for various driving scenarios on hard and soft soil.
doi_str_mv	10.1080/00423110903243224
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subjects	Computer simulation Contact Dynamical systems Dynamics Missions Modelling multi-body dynamics planetary rover polygon contact model soft soil contact model Soil (material) terramechanics validation
title	Planetary rover mobility simulation on soft and uneven terrain
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