The Artemis Jr. rover: Mobility Platform for lunar ISRU mission simulation - Robotics Institute Carnegie Mellon University

The Artemis Jr. rover: Mobility Platform for lunar ISRU mission simulation

Ewan Reid, Peter Iles, Jason Muise, Nick Cristello, Brad Jones, Michele Faragalli, Peter Visscher, Dale Boucher, Vincent Simard-Bilodeau, Dimi Apostolopoulos, Paul Rocco, and Martin Picard
Journal Article, Advances in Space Research, Vol. 55, No. 10, pp. 2472 - 2483, May, 2015

Abstract

The Regolith and Environment Science and Oxygen and Lunar Volatiles Extraction (RESOLVE) project aims to verify the presence of water and other volatiles on the Moon, and to serve as a precursor for future prospecting missions. The Artemis Jr. rover was developed as the surface mobility component of the RESOLVE project, and was specifically designed to accommodate the RESOLVE payload in a six-day NASA–CSA mission simulation carried out on Mauna Kea, Hawaii in July 2012. This paper describes the preparation, results, and lessons learned as they apply to the Artemis Jr. rover. Areas of focus include the operations as well as the rover software and hardware. Key results include support for the skid-steer configuration of the rover and the success of the absolute and relative localization functions of the rover.

BibTeX

@article{Reid-2015-120671,
author = {Ewan Reid and Peter Iles and Jason Muise and Nick Cristello and Brad Jones and Michele Faragalli and Peter Visscher and Dale Boucher and Vincent Simard-Bilodeau and Dimi Apostolopoulos and Paul Rocco and Martin Picard},
title = {The Artemis Jr. rover: Mobility Platform for lunar ISRU mission simulation},
journal = {Advances in Space Research},
year = {2015},
month = {May},
volume = {55},
number = {10},
pages = {2472 - 2483},
}
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