Publication Date:
2004-12-04
Description:
Growing interest in a future manned mission to Mars illuminated a critical need for more information on the Martian environment, surface conditions, weather patterns, topography, etc. While the Viking landers provided valuable information of this type, the information came from fixed locations. There is a real need for Viking type of information from a number of locations on the Martian surface in order to adequately survey the planet for future landing and exploration sites. Current site survey mission discussions range from Mars orbiters to sample return missions. The limited data return from the former and the extreme expense of the latter suggest consideration of a 'middle ground' mission which provides needed survey information for an acceptable investment. Utah State University (USU) designed a Mars Lander/Rover (MLR) for use in gathering needed environmental and surface information from Mars. Philosophically, the MLR resembles a mobile Viking; that is, it moves from location to location on the Martian surface, measuring environmental conditions, analyzing soil samples, charting topographical features etc. Measured data is then telemetered to earth for further analysis. Conceptually, it was envisioned that MLR survey locations would be rather widely separated. In that sense the MLR was not a terrestrial vehicle limited to local movement about a fixed location. Rather, it would have the capability for movement over long distances to reach widely separated locations. The design focus, then, was upon a Mars Lander/Rover that leaves an orbit around Mars, reenters and soft lands on the Martian surface and moves sequentially to widely scattered locations to sample, measure, and analyze Martian environmental and surface conditions. Primary goals were payload mass and size definition, characterization of the Martian atmosphere, selection of sampling locations, identification of alternative design concepts, selection of a preferred concept, team organization, and preparation for the detailed design phase.
Keywords:
MECHANICAL ENGINEERING
Type:
USRA, Agenda of the Third Annual Summer Conference, NASA(USRA University Advanced Design Program; p 36
Format:
text
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