Title :
QFT force loop design for the aerodynamic load simulator
Author_Institution :
Dept. of Mech. Eng., Kangwon Nat. Univ., Chunchon City, South Korea
fDate :
10/1/2001 12:00:00 AM
Abstract :
A dynamic load simulator which can reproduce on-ground the aerodynamic hinge moment of a control surface is an essential rig for conducting performance and stability tests of aircraft actuation systems. The hinge moment varies widely over the flight envelope, depending on the specific flight condition and maneuvering status. To replicate the wide spectrum of this hinge moment variation within some accuracy hounds, a force controller is designed based on the Quantitative Feedback Theory (QFT). A dynamic model of the load actuation system Is derived, and compared with experimental results. Through this comparison, a nominal model of the load actuation system with some uncertainty bounds is developed. The efficacy of the QFT force controller is verified by a numerical simulation, in which combined aircraft dynamics, flight control law and hydraulic actuation system dynamics of the aircraft control surface are considered
Keywords :
aerospace simulation; aircraft control; closed loop systems; feedback; force control; frequency response; hydraulic control equipment; robust control; servomechanisms; QFT force controller; aerodynamic hinge moment; aerodynamic load simulator; aircraft actuation systems; closed-loop frequency response; control surface; dynamic model; flight control law; force loop design; hydraulic actuation system dynamics; maneuvering status; nominal model; nonlinear dynamics; performance tests; quantitative feedback theory; robust force control system; stability tests; uncertainty bounds; Aerodynamics; Aerospace control; Aircraft; Fasteners; Force control; Force feedback; Load modeling; Stability; System testing; Uncertainty;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
