In this article, the multi-objective design of a fuzzy logic augmented flight controller for a high performance fighter jet (the Lockheed-Martin F16) is described. A fuzzy logic controller is designed and its membership functions tuned by genetic algorithms in order to design a roll, pitch, and yaw flight controller with enhanced manoeuverability which still retains safety critical operation when combined with a standard inner-loop stabilizing controller. The controller is assessed in terms of pilot effort and thus reduction of pilot fatigue. The controller is incorporated into a six degree of freedom motion base real-time flight simulator, and flight tested by a qualified pilot instructor

Baglio S.

Bates D.

Castro J. L.

Goldberg D. E.

Purshouse R. C.

Stevens B.

Tischler M. B.

Ying H.

English

Stewart, P.

Gladwin, D.

Parr, M.

Stewart, J.

University of Lincoln Institutional Repository

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Multi-objective evolutionary–fuzzy augmented flight control for an F16 aircraft

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Multi-objective evolutionary—fuzzy augmented flight control for an F16 aircraft

Abstract: In this article, the multi-objective design of a fuzzy logic augmented flight controller for a high performance fighter jet (the Lockheed-Martin F16) is described. A fuzzy logic controller is designed and its membership functions tuned by genetic algorithms in order to design a roll, pitch, and yaw flight controller with enhanced manoeuverability which still retains safety critical operation when combined with a standard inner-loop stabilizing controller. The controller is assessed in terms of pilot effort and thus reduction of pilot fatigue. The controller is incorporated into a six degree of freedommotion base real-time flight simulator, and flight tested by a qualified pilot instructor

P Stewart

D Gladwin

M Parr

J Stewart

CiteSeerX

Stewart, P

Gladwin, D

Parr, M

Stewart, Jill

UDORA - University of Derby Online Research Archive

Abstract: In this article, the multi-objective design of a fuzzy logic augmented flight controller for a high performance fighter jet (the Lockheed-Martin F16) is described. A fuzzy logic controller is designed and its membership functions tuned by genetic algorithms in order to design a roll, pitch, and yaw flight controller with enhanced manoeuverability which still retains safety critical operation when combined with a standard inner-loop stabilizing controller. The controller is assessed in terms of pilot effort and thus reduction of pilot fatigue. The controller is incorporated into a six degree of freedom motion base real-time flight simulator, and flight tested by a qualified pilot instructor

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Multi-objective evolutionary–fuzzy augmented flight control for an F16 aircraft

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