The students of the Florida A&M/Florida State University College of Engineering continued their design from 1988 to 1989 on a first generation lunar transportation vehicle for use on the surface of the Moon between the years 2010 and 2020. Attention is focused on specific design details on all components of the Lunar Articulated Remote Transportation System (Lunar ARTS). The Lunar ARTS will be a three-cart, six-wheeled articulated vehicle. Its purpose will be the transportation of astronauts and/or materials for excavation purposes at a short distance from the base (37.5 km). The power system includes fuel cells for both the primary system and the back-up system. The vehicle has the option of being operated in a manned or unmanned mode. The unmanned mode includes stereo imaging with signal processing for navigation. For manned missions the display console is a digital readout displayed on the inside of the astronaut's helmet. A microprocessor is also on board the vehicle. Other components of the vehicle include a double wishbone/flexible hemispherical wheel suspension; chassis; a steering system; motors; seat retraints; heat rejection systems; solar flare protection; dust protection; and meteoroid protection. A one-quarter scale dynamic model has been built to study the dynamic behavior of the vehicle. The dynamic model closely captures the mechanical and electrical details of the total design.
Lunar Articulated Remote Transportation System
1990
5 pages
Report
No indication
English
Extraterrestrial Exploration , Lunar surface vehicles , Imaging techniques , Moon , Navigation , Remote control , Signal processing , Transportation , Astronauts , Dust , Dynamic characteristics , Fuel cells , Helmets , Manned space flight , Meteoroid protection , Microprocessors , Scale models , Seats , Students , Lunar ARTS system
Lunar articulated remote transportation system
NTRS | 1990
Lunar articulated remote transportation system
NTRS | 1990
|Lunar Articulated Remote Transportation System
NTIS | 1990
|NTIS | 1986
NTIS | 1993