For 11 years the Department of Defense has cooperated with a diverse array of other Federal agencies including the National Institute of Standards and Technology, the Jet Propulsion Laboratory, and the Department of Energy, to develop robotics technology for unmanned ground systems. These activities have addressed control system architectures supporting sharing of tasks between the system operator and various automated subsystems, man-machine interfaces to intelligent vehicles systems, video compression supporting vehicle driving in low data rate digital communication environments, multiple simultaneous vehicle control by a single operator, path planning and retrace, and automated obstacle detection and avoidance subsystem. Performance metrics and test facilities for robotic vehicles were developed permitting objective performance assessment of a variety of operator-automated vehicle control regimes. Progress in these areas will be described in the context of robotic vehicle testbeds specifically developed for automated vehicle research. These initiatives, particularly as regards the data compression, task sharing, and automated mobility topics, also have relevance in the space environment. The intersection of technology development interests between these two communities will be discussed in this paper.
Intelligent Vehicle Control: Opportunities for Terrestrial-Space System Integration
1994
1 pages
Report
Keine Angabe
Englisch
Astronautics , Navigation Systems , Obstacle avoidance , Performance tests , Robotics , Systems integration , Data compression , Defense program , Man machine systems , Video compression , Aerospace environments , Pulse communication , Rates (Per time) , Test facilities , Trajectory planning , Spacecraft controls , Autonomous navigation
Intelligent Vehicle Control: Opportunities for Terrestrial-Space System Integration
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