Inching Locomotion for Planetary Rover Mobility - Robotics Institute Carnegie Mellon University

Inching Locomotion for Planetary Rover Mobility

Scott Jared Moreland, Krzysztof Skonieczny, and David Wettergreen
Conference Paper, Proceedings of IEEE Aerospace Conference, March, 2011

Abstract

New articulated planetary rovers offer alternative locomotion modalities beyond conventional rolling wheel mobility. These new modalities should be explored to overcome the limitations of traditional rolling mobility, and expand the areas of planetary surfaces amenable to exploration. The topic of this study is a hybrid push-roll locomotion mode called inching. Static (non-rolling) wheels are used in conjunction with the rolling wheels of a vehicle in order to increase net traction potential. Preliminary experiments have shown an approximate doubling in drawbar pull for the inching locomotion mode relative to pure rolling. This improvement is not accounted for by reductions to wheel motion resistance alone, and furthermore evidence is provided that static wheels are capable of reacting more ground thrust than rolling wheels. Further investigations using a transparent soil tank, and novel image processing techniques, reveal key differences in the soil shear failure interface under rolling and static wheels. For the cases studied, static wheels generated much deeper and more unified soil failure masses than rolling wheels. Further investigation is recommended to clarify the physics of these thrust development processes, and ultimately to populate the vehicle design space for inching locomotion.

BibTeX

@conference{Moreland-2011-7227,
author = {Scott Jared Moreland and Krzysztof Skonieczny and David Wettergreen},
title = {Inching Locomotion for Planetary Rover Mobility},
booktitle = {Proceedings of IEEE Aerospace Conference},
year = {2011},
month = {March},
keywords = {planetary rover, locomotion, wheel-soil interaction},
}