航空学报 > 1992, Vol. 13 Issue (10): 487-494

飞机机动飞行的非线性解耦控制研究

王立新, 胡兆丰   

  1. 北京航空航天大学509教研室 北京 100083
  • 收稿日期:1991-03-01 修回日期:1991-12-01 出版日期:1992-10-25 发布日期:1992-10-25

NONLINEAR DECOUPLING CONTROL STUDY FOR AIRCRAFT MANEUVERING FLIGHT

Wang Li-xin, Hu Zhao-feng   

  1. Faculty 509 of Beijing University of Aeronautics and Astronautics, Beijing , 100083
  • Received:1991-03-01 Revised:1991-12-01 Online:1992-10-25 Published:1992-10-25

摘要:

本文针对12维非线性飞机动力学模型,利用非线性逆动力学理论和现代最优控制理论设计了一组含有指令静差积分环节的非线性解耦控制规律。这组控制规律使得对状态变量、控制变量以及它们变化率进行加权约束的性能指标极小,并能用平缓的操纵反应和较小的控制能量使飞机达到完全解耦的指定状态。由于这组控制规律计及了飞机动力学模型中的非线性因素,能够弥补飞机机动飞行时非线性特性的恶化影响,在整个飞行包线内都能为飞机提供优良的操纵品质和飞行性能。

关键词: 非线性系统, 机动飞行, 飞行控制, 解耦, 逆系统

Abstract:

Based on 2-state nonlinear aircraft dynaminc model, a nonlinear decoupling control law which contains command static error integral loop is designed by combining nonlinear inverse dynamics theory and modern optimal control theory . This control law could minimize the performance index which contains the weighted state variables, control variables and their varying rates. Using this control law, the aircraft could capture the desired flight state more accurately and decouples the control more completely with smooth control responses and less control energy. As the control law more accurate represents the nonlinear factors that arise in aircraft dynamic model and remedies the degrading of aircraft nonlinear dynamical behavior during maneuvering flight , it offers the potential for providing high levels of handling quality and flight performance in the entire flight envelope of the aircraft.

Key words: nonlinear systems, maneuvering flight, flight control, decoupling, inverse systems