Mars Exploration Rover mobility assembly design, test and performance

Author

Lindemann, Randel A. ; Voorhees, Chris J.

Author_Institution

Jet Propulsion Lab. x, Jet Propulsion Lab. Californi a Inst. of Technol., Pasadena, CA, USA

Volume

1

fYear

2005

fDate

10-12 Oct. 2005

Firstpage

450

Abstract

In January 2004, NASA landed two mobile robotic spacecraft, or rovers, on opposite sides of the planet Mars. These rovers, named Spirit and Opportunity, were each sent on their own scientific mission of exploration. Their objective was to work as robotic geologists. After more than a year the vehicles are still in excellent health, and returning vast amounts of scientific information on the ancient water processes that helped form Mars. Key to the success of the rovers was the development of their advanced mobility system. In this paper the mobility assembly, the mechanical hardware that determines the vehicles mobility capability, is described. The details of the design, test, and performance of the mobility assembly are shown to exceed the mission requirements. The rovers´ ability to traverse the Mars terrain with its combination of rocks, craters, soft soils, and hills was verified, and the system design validated.

Keywords

Mars; aerospace engineering; aerospace robotics; mobile robots; planetary rovers; remotely operated vehicles; space vehicles; AD 2004 01; Mars Exploration Rover; Mars terrain; Martian surface; NASA; Opportunity; Spirit; mobile robotic spacecraft; planetary exploration; robotic geologist; rover mobility assembly design; Geology; Marine vehicles; Mars; Mobile robots; NASA; Orbital robotics; Planets; Robotic assembly; Space vehicles; Testing; Mars; Rover; mobility; rocker bogie suspension; traversability;

fLanguage

English

Publisher

ieee

Conference_Titel

Systems, Man and Cybernetics, 2005 IEEE International Conference on

Print_ISBN

0-7803-9298-1

Type

conf

DOI

10.1109/ICSMC.2005.1571187

Filename

1571187