基于反馈线性化的高速无人机自适应控制系统设计

高速无人机是典型的复杂非线性、参数不确定性系统,且各控制通道之间存在强耦合作用,这对飞行控制系统设计提出了严峻挑战。针对其非线性特性和耦合特性,采用精确反馈线性化理论将无人机动力学模型解耦为3个独立的子系统,即滚转、俯仰和偏航通道;应用模型参考自适应控制方法分别设计每个通道的姿态控制器。研究表明,上述线性化方法能够实现三通道解耦,所设计控制系统满足飞行控制性能要求,且对气动参数摄动和外部干扰具有较强的鲁棒性。     

基于反馈线性化的双馈风电机组次同步控制相互作用抑制策略

大规模风电经固定串补线路送出时,由于变流器与固定串补之间的相互作用,使双馈风电机组(DFIG)可能会存在一种新的次同步谐振(SSR)问题,称为次同步控制相互作用(SSCI)。提出反馈线性化控制策略,并将之应用于DFIG转子侧变流器和网侧变流器控制回路以抑制SSCI。首先对系统的反馈线性化条件进行验证,再选取合适的坐标变换,在保证系统零动态稳定的前提下求得非线性状态反馈规律。在MATLAB/Simulink下的仿真结果表明:与参数已整定的比例积分控制策略相比,反馈线性化控制策略能够有效抑制SSCI,使DFIG在不同串补度和风速下都能保持稳定运行,且不影响DFIG的故障穿越能力。     

采用非线性系统扩展线性化方法设计飞控系统

利用非线性系统的扩展线性化方法设计具有大迎角的非线性飞行控制系统。在系统的静态平衡点族上进行线化及调节器设计并直接积分得到非线性控制律,同时利用等效系统法验证飞行品质。整个设计过程较简便,控制律便于实现,飞机的失速迎角有较大提高,飞行品质也是令人满意的。     

目标机动时的一种非线性末制导律

本文研究了在空间拦截中导弹的脱靶量，并分析了影响脱靶量的因素。利用非线性精确线性化理论设计了目标机动时的非线性末制导律。     

基于轨迹线性化方法的导弹动态逆控制系统设计

基于动态逆控制及轨迹线性化方法,研究了一种新的导弹鲁棒自适应控制系统设计方法.首先,基于导弹的非线性模型设计快、较慢回路的动态逆控制器,以实现其非线性解耦;然后,在较慢回路中设计鲁棒自适应轨迹线性化控制器,以补偿整个控制系统的不确定性及干扰,即在轨迹线性化控制的基础上,通过设计RBF神经网络在线估计系统中存在的不确定性...     

Partition method for improvement of piecewise linear model with full envelope covered

Since ambient conditions vary in a wide range within the full flight envelope, the existing piecewise linear model (PLM), which is based on sea-level static condition with use of corrected parameters for other points in the flight envelope, cannot meet the accuracy for replacing the nonlinear model. To obtain more accurate linear models, a method of partitioning the flight envelope over a grid of Mach number and altitude boxes was suggested. Then, a set of linear models for a given operating condition was selected by picking the nearest (Mach number, altitude) box in the flight envelope. Through the selected set of linear models, interpolating for power level based on a weighted sum of corrected rotor speeds can obtain a linear model with acceptable accuracy. Simulation results of different points within the full flight envelope showed that the maximum error between nonlinear model and the existing PLM was more than 50%, while the maximum error between nonlinear model and the improved PLM was within 8%. It is concluded that the improved PLM performs accurately, especially under the non-standard conditions. In addition, the improved PLM can satisfy the real-time requirement better than the existing PLM.      

一种导弹攻击时间协同导引律

研究了具有攻击时间约束的多枚导弹协同导引律。首先,根据各枚导弹的估计到达时间来指定攻击时间,并由指定攻击时间设计期望的弹目距离,使攻击时间控制问题转化为弹目距离跟踪问题;然后,引入导弹导引非线性模型,采用反馈线性化的方法将其转化为线性模型;最后,利用线性极点配置的方法设计出稳定的控制律。仿真结果证明,所有导弹都能非常精确地按照指定攻击时间到达目标。     

随机振动响应方差的直接算法

将动力学方程经过系统扩阶和模态变换构成李雅普诺夫方程,可直接求得大型有限元结构的平稳随机振动响应方差.用等效线性化方法处理杜芬系统后,求解李雅普诺夫方程可以得到一套高效高精度求解杜芬系统随机振动响应方差的方法.仿真对误差进行了估计,结果验证了方法的高效和精确性.      

ROBUST ADAPTIVE BANK-TO-TURN MISSILE AUTOPILOT DESIGN USING FUZZY CMAC NEURAL NETWORKS

ＲＯＢＵＳＴＡＤＡＰＴＩＶＥＢＡＮＫ┐ＴＯ┐ＴＵＲＮＭＩＳＳＩＬＥＡＵＴＯＰＩＬＯＴＤＥＳＩＧＮＵＳＩＮＧＦＵＺＺＹＣＭＡＣＮＥＵＲＡＬＮＥＴＷＯＲＫＳＺｈａｎｇＹｏｕａｎ（张友安）,ＣｕｉＰｉｎｇｙｕａｎ（崔平远）,ＷａｎｇＳｈｏｕｂｉｎｇ（王守斌...     

Trajectory tracking control for underactuated stratospheric airship

Stratospheric airship is a new kind of aerospace system which has attracted worldwide developing interests for its broad application prospects. Based on the trajectory linearization control (TLC) theory, a novel trajectory tracking control method for an underactuated stratospheric airship is presented in this paper. Firstly, the TLC theory is described sketchily, and the dynamic model of the stratospheric airship is introduced with kinematics and dynamics equations. Then, the trajectory tracking control strategy is deduced in detail. The designed control system possesses a cascaded structure which consists of desired attitude calculation, position control loop and attitude control loop. Two sub-loops are designed for the position and attitude control loops, respectively, including the kinematics control loop and dynamics control loop. Stability analysis shows that the controlled closed-loop system is exponentially stable. Finally, simulation results for the stratospheric airship to track typical trajectories are illustrated to verify effectiveness of the proposed approach.