Closed-loop dynamic control allocation for aircraft with multiple actuators 被引量：5

Closed-loop dynamic control allocation for aircraft with multiple actuators

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摘要 A closed-loop control allocation method is proposed for a class of aircraft with multiple actuators. Nonlinear dynamic inversion is used to design the baseline attitude controller and derive the desired moment increment. And a feedback loop for the moment increment produced by the deflections of actuators is added to the angular rate loop, then the error between the desired and actual moment increment is the input of the dynamic control allocation. Subsequently, the stability of the closed-loop dynamic control allocation system is analyzed in detail. Especially, the closedloop system stability is also analyzed in the presence of two types of actuator failures： loss of effectiveness and lock-in-place actuator failures, where a fault detection subsystem to identify the actuator failures is absent. Finally, the proposed method is applied to a canard rotor/wing （CRW） aircraft model in fixed-wing mode, which has multiple actuators for flight control. The nonlinear simulation demonstrates that this method can guarantee the stability and tracking performance whether the actuators are healthy or fail. A closed-loop control allocation method is proposed for a class of aircraft with multiple actuators. Nonlinear dynamic inversion is used to design the baseline attitude controller and derive the desired moment increment. And a feedback loop for the moment increment produced by the deflections of actuators is added to the angular rate loop, then the error between the desired and actual moment increment is the input of the dynamic control allocation. Subsequently, the stability of the closed-loop dynamic control allocation system is analyzed in detail. Especially, the closedloop system stability is also analyzed in the presence of two types of actuator failures： loss of effectiveness and lock-in-place actuator failures, where a fault detection subsystem to identify the actuator failures is absent. Finally, the proposed method is applied to a canard rotor/wing （CRW） aircraft model in fixed-wing mode, which has multiple actuators for flight control. The nonlinear simulation demonstrates that this method can guarantee the stability and tracking performance whether the actuators are healthy or fail.

作者 Gai Wendong Wang Honglun

机构地区 Science and Technology on Aircraft Control Laboratory

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2013年第3期676-686,共11页 中国航空学报（英文版）

基金 Program for New Century Excellent Talents in University (NCET-10-0032)

关键词 Canard rotor/wing aircraft Closed-loop control allocation Dynamic inversion Flight control systems Redundant actuators Canard rotor/wing aircraft Closed-loop control allocation Dynamic inversion Flight control systems Redundant actuators

分类号 V249.1 [航空宇航科学与技术—飞行器设计]

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2013年第3期

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