Adaptive critic design of a control augmentation system for an unmanned aerial vehicle | IEEE Conference Publication | IEEE Xplore

Adaptive critic design of a control augmentation system for an unmanned aerial vehicle


Abstract:

Command augmentation systems (CAS) are a common part of modern airplane control and are best characterized as a form of tracking control. Pilot commands communicated thro...Show More

Abstract:

Command augmentation systems (CAS) are a common part of modern airplane control and are best characterized as a form of tracking control. Pilot commands communicated through stick, pedal and throttle commands are translated into desired states for the airplane and the CAS through a close loop configuration with airplane work to minimize the difference between the actual state of the plane and the desired state as communicated from the pilot. In the research reported, simulated stick x commands were translated into desired roll rates for a simulated airplane. Using dual heuristic programming, a form of neurodynamic programming (a.k.a. adaptive critic methods and reinforcement learning), a CAS was designed. The resultant CAS shows effective tracking response between the desired and actual roll rate of the airplane.
Date of Conference: 08-08 October 2003
Date Added to IEEE Xplore: 10 November 2003
Print ISBN:0-7803-7952-7
Print ISSN: 1062-922X
Conference Location: Washington, DC, USA

References

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