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提出一种基于RBF(Radial Based Function)神经网络和动态面控制的飞行控制律设计方法。针对飞机气动参数变化引起的非线性和不确定性,通过RBF神经网络在线逼近。动态面飞行控制律消除了反推设计方法中由于对虚拟控制反复求导而导致的复杂性问题。同时,在控制律设计中引入一个鲁棒因子项来补偿外界干扰和神经网络的逼近误差,提高了系统的鲁棒性,使整个系统获得更好的跟踪控制性能。基于Lyapunov稳定性定理证明了闭环系统的所有信号半全局一致终结有界,并且通过适当选择设计参数,跟踪误差可收敛到原点的一个小邻域内。最后,通过飞机俯仰运动飞行的数值仿真验证了该方法的有效性。 相似文献
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Electromechanical flight actuators for advanced flight vehicles 总被引:3,自引:0,他引:3
The aircraft flight quantities and success of the mission depend to a great extent upon the actuator performance, and flight actuators must be designed to achieve the specified criteria. Electromechanical flight actuators driven by electric motors have begun to displace hydraulic technology in advanced flight vehicles. In aerospace application, permanent-magnet stepper motors are perfectly suited due to their efficiency and reliability, low volume-, weight-, and size-to-torque ratios, high power and torque densities, low cost and maintenance, simplicity and ruggedness, etc. Conventional open-loop stepper motor servos do not ensure the required accuracy and dynamic performance. An innovative method in motion control of advanced electromechanical flight actuators is developed, and nonlinear controllers are designed. The specified tracking accuracy, desired stability margins, microstepping capabilities, and disturbance attenuation are ensured by the robust nonlinear controllers synthesized. Analytical, numerical, and experimental results are documented to study the performance of flight actuators directly driven by stepper motors and to demonstrate the efficiency of control algorithms 相似文献
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精确完整的发动机线性模型对于现代航空发动机控制系统的设计与故障诊断至关重要。提出了1种用差分进化算法提取包含发动机主要特征量及其执行机构状态变量的增广发动机状态变量模型的方法,其状态变量包括发动机转速、执行机构位移、速度、控制压力等特征,并包含了执行机构的输入饱和限制,与实际系统相一致。仿真结果表明:利用该方法建立的增广发动机状态变量模型与非线性模型动态响应过程吻合良好且稳定终值一致,可用于具有工程应用价值的控制器设计及包含执行机构的发动机故障诊断。 相似文献
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Tarn T.J. Bejczy A.K. Yun X. 《IEEE transactions on aerospace and electronic systems》1988,24(5):571-583
Multiple coordinated robot arms are modeled by considering the arms as closed kinematic chains and as a force-constrained mechanical system working on the same object simultaneously. In both formulations, a novel dynamic control method is discussed. It is based on feedback linearization and simultaneous output decoupling technique. By applying a nonlinear feedback and a nonlinear coordinate transformation, the complicated model of the multiple robot arms in either formulation is converted into a linear and output decoupled system. The linear system control theory and optimal control theory are used to design robust controllers in the task space. The first formulation has the advantage of automatically handling the coordination and load distribution among the robot arms. In the second formulation, it was found that by choosing a general output equation it became possible simultaneously to superimpose the position and velocity error feedback with the force-torque error feedback in the task space 相似文献
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带传统线性控制器飞机在大迎角高机动飞行时敏捷性明显地减小,运动状态严重耦合更加重这一趋势,而此时操纵能力往往仍有剩余而未能被利用。针对此问题,应用非线性反馈理论直接就飞机非线性运动模型设计输入输出解耦飞行控制器,数值仿真结果证实,这种设计能够纳入气动和运动学非线性因素,充分利用飞机操纵潜力,因而使前述薄弱区域的闭环敏捷性得到了有效的增强,明显地扩大了敏捷性包线。 相似文献
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基于多模型方法的全包络鲁棒飞行控制器设计 总被引:7,自引:2,他引:5
利用新一代歼击机不同平衡点的多个非线性子模型对其机动飞行的全包络模型进行逼近。对于每一个子模型,设计相应的动态逆控制器,应用模糊神经网络产生控制器切换决策,实现不同飞行状态下不同模型控制器之间的相互切换。同时为了提高多模型飞行控制效果,对各模型控制器的输入及输出采样并作为神经网络的学习样本,形成一个全包络内的多模型统一神经网络控制器。最后通过歼击机的大迎角机动仿真来验证所设计的基于多模型的统一神经网络控制器的有效性,仿真结果表明所设计的统一神经网络控制器是有效的。 相似文献
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Supermaneuver flight is often operated withhigh angle- of- attack and high angular rates.Su-per- maneuver flight cannot be controlled by aconventional gain- scheduled controller but canbe controlled by using a nonlinear dynamic- in-version controller[1~ 3] . This paper presents a method to use twokinds of controllers,nonlinear dynamic- inver-sion and conventional gain- scheduled con-trollers,in a flight control system.The nonlin-ear dynamic- inversion controller is used to con-trol superm… 相似文献
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NONLINEARPREDICTIVECONTROLFORTERRAINFOLLOWINGCuiHutao(崔祜涛),GengYunhai(耿云海),YangDi(杨涤)(HarbinInstituteofTechnology,P.O.Box137,... 相似文献
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研究了空天飞行器(ASV)再入姿态的具有闭环极点约束的模糊保性能控制律的设计问题。基于ASV再入段存在参数摄动的不确定姿态动态系统的T S模糊模型,考查姿态角和角速率误差的镇定问题,结合圆盘极点约束,导出了具有极点约束的模糊保性能控制律存在的条件,基于Matlab的LMI(Linear Matrix Inequalities)和FLC(Fuzzy Logic Control)工具给出了ASV再入姿态的具有闭环极点约束的模糊保性能控制器的设计方法。仿真结果验证了算法的有效性。 相似文献
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The problem of controlling a spacecraft by measuring only the angular position (roll, pitch, and yaw) is considered. A nonlinear observer is proposed which asymptotically reconstructs all the spacecraft state variables; if the spacecraft actuators are reaction wheels, the angular velocities of the wheels also must be measured. It is shown that if the observer is used in connection with asymptotically stable state feedback controllers, the extended system (spacecraft, controller, and observer) is still asymptotically stable. Simulation results are reported to illustrate the dynamic behavior of the observer 相似文献
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针对无人机空中加油的自主会合问题,进行了相应制导律和非线性控制器的设计。通过改进的带角度约束的三维比例制导律实现对航向角的控制,以协调转弯的方式将航迹角指令转化为姿态角指令。基于无人机六自由度的动力学模型,针对无人机的姿态控制,采用时标分离的方法设计了慢子系统和快子系统,并对这两个子系统分别进行动态逆控制设计。同时,基于滑模控制的方法设计了满足自主会合要求的速度控制律。在保证无人机飞行稳定的基础上,实现了对控制和制导指令的精确跟踪。仿真结果表明,所设计的制导律和控制律能够实现无人机空中加油的自主会合,具有良好的动态特性。 相似文献