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Control law synthesis for vertical fin buffeting alleviation using strain actuation
Author(s) -
Fred Nitzsche,
D. G. Zimcik,
T. G. Ryall,
Robert W. Moses,
Douglas A. Henderson
Publication year - 1999
Publication title -
40th structures, structural dynamics, and materials conference and exhibit
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.1999-1317
Subject(s) - aeroelasticity , fin , control (management) , strain (injury) , control theory (sociology) , computer science , engineering , law , mechanical engineering , aerodynamics , aerospace engineering , political science , artificial intelligence , medicine
In the present investigation, the results obtained during the ground test of a closed-loop control system conducted on a full-scale fighter to attenuate vertical fin buffeting response using strain actuation are presented. Two groups of actuators consisting of piezoelectric elements distributed over the structure were designed to achieve authority over the first and second modes of the vertical fin. The control laws were synthesized using the Linear Quadratic Gaussian (LQG) method for a time-invariant control system. Three different pairs of sensors including strain gauges and accelerometers at different locations were used to close the feedback loop. The results demonstrated that measurable reductions in the root-mean-square (RMS) values of the fin dynamic response identified by the strain transducer at the critical point for fatigue at the root were achieved under the most severe buffet condition. For less severe buffet conditions, reductions of up to 58% were achieved.

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