共查询到15条相似文献,搜索用时 562 毫秒
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吸气式高超声速飞行器巡航状态下飞行环境复杂,建模时存在非线性以及参数摄动.基于小扰动假设的传统经典控制理论难以适应当前任务对鲁棒性的要求,对此提出了一种非线性动态逆-滑模控制律改进方法.通过对吸气式高超声速飞行器模型精确反馈线性化得到解耦形式的线性方程,为速度和高度设计出动态逆控制律来抵消非线性特性,在动态逆的基础上采用滑模变结构来补偿参数摄动带来的误差.仿真结果表明,所设计的控制方法具有良好的动态性能及鲁棒性. 相似文献
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针对涡扇发动机内部状态大范围变化条件下,单点线性控制器控制效果不佳而线性变参数控制器求解困难的问题,提出了一种基于多入多出平衡流形展开模型的涡扇发动机反馈线性化滑模变结构控制。首先,采用多入多出平衡流形展开模型辨识技术,获得仿射型的涡扇发动机数学模型。随后,利用反馈线性化将平衡流形展开模型解耦,经过坐标变换获得可用于控制系统设计的线性结果,考虑了具有误差项和饱和函数的指数趋近滑模控制律来提高控制系统的鲁棒性,完成了基于平衡流形展开模型的多变量涡扇发动机反馈线性化滑模控制器设计。最后,在非线性部件级模型上开展了控制器验证。在平衡流形展开模型设计工况,增益控制和滑模控制的控制效果表明,基于平衡流形展开模型的反馈线性化方法能够获得涡扇发动机良好的控制效果。同时,在平衡流形展开模型稳定但精度无法保证的非设计飞行工况,反馈线性化滑模控制器能够进一步抑制不确定性的影响,保证转子转速和发动机压比的跟踪控制效果。 相似文献
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将动态逆理论、神经网络和自适应控制相结合应用于非线性飞行控制系统设计中,通过动态逆控制律将非线性耦合系统转换为线性解耦系统,采用具有在线学习能力的神经网络来补偿反馈线性化中存在的逆误差,最后利用李亚普诺夫稳定性理论推导了在线网络权值的自适应调整规则。仿真结果表明,这种控制结构具有良好的跟踪能力和极强的鲁棒性。 相似文献
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应用精确线性化方法研究了永磁同步电动机的非线性控制问题.根据精确线性化理论,设计了永磁同步电动机状态反馈线性化控制器和相对阶为1的多指标输入输出反馈线性化控制器.多指标非线性控制器选择全状态量线性组合形式为输出函数,根据系统特征根配置方法,整定了输出函数中各状态量的反馈系数.比较2种控制器仿真结果发现,多指标非线性控制器可以实现对电动机转速的有效控制,且控制器结构简单,设计方便,动静态性能良好. 相似文献
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Baohua Lian Hyochoong Bang 《IEEE transactions on aerospace and electronic systems》2006,42(2):453-463
A nonlinear control law design based upon the backstepping approach is addressed for attitude maneuver control of spacecraft by momentum transfer (MT) in the presence of disturbance. For MT, a traditional method usually applies constant torque as an input, which tends to produce significant residual oscillation. Enhanced methods such as optimal control can somewhat reduce the residual oscillation, but may not be enough for minimum residual motion. Feedback linearization technique can drive the final nutation angle small enough, but it is rather sensitive to parameter uncertainty. The proposed method here takes advantage of nonlinear control approach with small steady-state nutation angle. Sensitivity about parameter uncertainties by feedback linearization can be reduced by the backstepping technique. Stability of the resulting control law is guaranteed by the Lyapunov stability theory. Boundedness of the control law is presented to validate practical merit of the proposed control law. 相似文献
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The mathematical model of a transport aircraft would be subjected to a sudden change when heavy cargo is dropped off in airdropping, which exerts serious influences upon the safety of the aircraft. A variable structure controller is specially designed for handling the airdrop process. The nonlinear system is linearized by input-output feedback linearization using differential geometry theories. On this basis, an inner loop system for velocity and attitude tracking control is designed by using the exponentially approaching rule of the variable structure theory. The whole flight control system is integrated with the outer loop flight altitude control. Digital simulation evidences the applicability of the system to potentially catastrophic course in airdropping heavy cargo and provides robustness against system parameter perturbation. 相似文献
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