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21 March 1989 Control System Validation In The Autonomous Helicopter
John F. Gilmore, John Fugedy, Thomas Friedel
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Proceedings Volume 1095, Applications of Artificial Intelligence VII; (1989) https://doi.org/10.1117/12.969358
Event: SPIE 1989 Technical Symposium on Aerospace Sensing, 1989, Orlando, FL, United States
Abstract
Autonomous systems require the ability to analyze their environment and develop responsive plans of action. Autonomous vehicle research has led to the development of several land, sea, and air vehicle prototypes. These systems integrate vision, diagnostics, planning, situation assessment, tactical reasoning, and intelligent control at a variety of levels to function in limited environments or computer simulation. Route planning in these systems has historically focused on pure numerical computations unable to adapt to the dynamic nature of the world. This paper describes a knowledge-based system for autonomous route planning that has been applied to airborne vehicles. Specific focus is the vehicle model knowledge source that validates routes based upon the physical capabilities of the helicopter system. An overview of the autonomous helicopter is present to establish system context with specific results in validated route planning presented.
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John F. Gilmore, John Fugedy, and Thomas Friedel "Control System Validation In The Autonomous Helicopter", Proc. SPIE 1095, Applications of Artificial Intelligence VII, (21 March 1989); https://doi.org/10.1117/12.969358
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KEYWORDS
Artificial intelligence
Control systems
Systems modeling
Aerodynamics
Radar
Device simulation
Motion models
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