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Lyapunov变量和系统矩阵之间的耦合导致混合H2/H∞飞行跟踪控制器设计问题非凸。借助于扩展LMI方法,非凸优化问题被转化为凸的线性矩阵不等式(LMI)表达式。通过引入松弛变量,上述的耦合得以消除。而且,一个充要条件被证明成立以求解混合H2/H∞飞行跟踪控制器,该控制器不仅能够稳定被控系统,并且能够保证系统在正常和故障情况下均满足混合H2/H∞性能指标。这种新的扩展LMI表达式提供了额外的自由度去求解非凸优化问题,并减小了控制器设计的保守性。关于ADMIRE模型的仿真结果说明这种扩展LMI方法的优越性。 相似文献
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基于遗传算法的直升机鲁棒飞行控制器设计 总被引:4,自引:1,他引:3
以旋翼机驾驶品质要求 ADS-33为设计目标,采用 H∞ 混合灵敏度方法设计直升机在低速飞行时的鲁棒控制器,设计中利用遗传算法优化加权阵参数,找到同时满足频域和时域性能要求的控制器。以 UH-60 A直升机为对象,所设计的直升机飞行控制系统不仅具有鲁棒稳定性,而且满足 ADS-33D水平 1操纵品质要求。 相似文献
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Recently,robust control has great theoreticalsignificance and practical value and has gained a lotof interest for its characteristic.With the develop-ment and abroad applications of linear matrix in-equalities( LMIs) in Control Theory( Gahinet[1] andIwasaki[2 ] ) ,the study of H∞ controller designbased on Riccati equation is gradually transformedinto the approach based on LMI.The concrete ap-proach is to convertthe problemsof stability condi-tion,controller design and tracking in control … 相似文献
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This article proposes a linear parameter varying (LPV) switching tracking control scheme for a flexible air-breathing hypersonic vehicle (FAHV). First, a polytopic LPV model is constructed to represent the complex nonlinear longitudinal model of the FAHV by using Jacobian linearization and tensor-product (T-P) model transformation approach. Second, for less conservative controller design purpose, the flight envelope is divided into four sub-regions and a non-fragile LPV controller is designed for each parameter sub-region. These non-fragile LPV controllers are then switched in order to guarantee the closed-loop FAHV system to be asymptotically stable and satisfy a specified performance criterion. The desired non-fragile LPV switching controller is found by solving a convex constraint problem which can be efficiently solved using available linear matrix inequality (LMI) techniques, and robust stability analysis of the closed-loop FAHV system is verified based on multiple Lypapunov functions (MLFs). Finally, numerical simulations have demonstrated the effectiveness of the proposed approach. 相似文献
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Electromagnetic formation flight(EMFF) leverages electromagnetic force to control the relative position of satellites. EMFF offers a promising alternative to traditional propellant-based spacecraft flight formation. This novel strategy is very attractive since it does not consume fuel. Due to the highly coupled nonlinearity of electromagnetic force, it is difficult to individually design a controller for one satellite without considering others, which poses challenges to communications.This paper is devoted to decoupling control of EMFF, including regulations, constraints and controller design. A learning-based adaptive sliding mode decoupling controller is analyzed to illustrate the problem of existing results, and input rate saturation is introduced to guarantee the validity of frequency division technique. Through transformation, the imposed input rate saturation is converted to state and input constraints. A linear matrix inequalities(LMI)-based robust optimal control method can then be used and improved to solve the transformed problem. Simulation results are presented to demonstrate the effectiveness of the proposed decoupling control. 相似文献
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针对高空台飞行环境模拟系统的温度和压力在整个工作包线内的鲁棒性能控制问题,提出了一种基于LMI极点配置的PI增益调度控制设计方法。在考虑变比热容腔微分方程、管道热传导、调节阀流量特性、液压伺服动态、传感器增益对飞行环境模拟系统造成的建模不确定性的基础上,建立了完整、准确的飞行环境模拟系统非线性模型;对非线性模型进行了线性化,并根据线性模型推导了基于LMI极点配置的PI控制器设计算法;在飞行环境模拟系统的工作包线内选取了36个稳态点设计了基于LMI极点配置的PI增益调度控制器;设计了两种飞行环境模拟试验来验证设计的PI增益调度控制器的鲁棒性能。仿真结果表明,飞行环境模拟系统温度的稳态误差和动态误差均小于0.1%,压力的稳态误差小于0.5%,动态误差小于0.7%。 相似文献
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This paper investigates the problem of robust reliable control for the spacecraft rendezvous with limited-thrust. Based on the Clohessy–Wiltshire (C–W) equations and by considering the uncertainties and the possible failures, the dynamic model for spacecraft rendezvous is proposed, and the orbital transfer control problem is transformed into a stabilization problem. Then, by a Lyapunov approach, the existence conditions for admissible controllers are formulated in the form of linear matrix inequalities (LMIs), and the controller design is cast into a convex feasibility problem subject to LMI constraints. With the obtained controllers, the rendezvous can be accomplished with the limited-thrust in spite of the possible thruster failures. The effectiveness of the proposed approach is illustrated by simulation examples. 相似文献
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基于LMI涡扇发动机混合加权灵敏度H_∞动态输出反馈控制 总被引:2,自引:2,他引:0
利用回路整形和内模原理方法,选取合理频率域加权函数,结合实际被控对象状态空间模型,得到某广义被控对象状态空间模型,将原控制要求问题转化为标准H∞控制问题。基于LMI(LinearMatrixInequality)方法,对此广义对象进行最优H∞动态输出反馈控制器设计,进而求得原被控对象的控制器。以某型涡扇发动机为被控对象,进行混合加权灵敏度H∞动态输出反馈控制器设计,并在飞行包线范围内,进行了发动机控制系统非线性仿真验证。结果表明,此控制器满足抗干扰性、跟踪性要求,并具有一定鲁棒性。 相似文献
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飞行/推进系统分散控制优化设计及鲁棒性分析 总被引:1,自引:1,他引:0
以一种短距起降战斗机的飞行/推进综合控制系统设计为背景,对分散控制如何保持集中控制的性能和鲁棒性的问题提出利用优化的思想设计分散控制器.首先采用遗传算法设计集中控制器,作为分散控制的性能参考,然后给出具有接口变量的分散控制器设计方法,通过分析得出影响分散控制性能的关键因素,并通过数学推导得到以频率加权矩阵为设计参数的分散控制性能表达式,将分散控制器设计转化为优化问题,采用遗传算法求解得到分散控制器.分散控制器设计中同时用到了一种改进的平衡降阶方法.通过仿真和结构奇异值分析验证了这种优化设计方法可使分散控制达到集中式控制的性能和鲁棒性. 相似文献
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Non-affine parameter dependent LPV model and LMI based adaptive control for turbofan engines 总被引:1,自引:0,他引:1
The precise control of turbofan engines thrust is an important guarantee for an aircraft to obtain good flight performance and a challenge due to complex nonlinear dynamics of engines and time-varying parameters. The main difficulties lie in the following two aspects. Firstly, it is hard to obtain an accurate kinetic model for the turbofan engine. Secondly, some model parameters often change in different flight conditions and states and even fluctuate sharply in some cases. These variable parameters bring huge challenge for the turbofan engine control. To solve the turbofan engine control problem, this paper presents a non-affine parameter-dependent Linear Parameter Varying(LPV) model-based adaptive control approach. In this approach, polynomial-based LPV modeling method is firstly employed to obtain the basis matrices, and then the Radial Basis Function Neural Networks(RBFNN) is introduced for the online estimation of the non-affine model parameters to improve the simulation performance. LPV model-based Linear Matrix Inequality(LMI) control method is applied to derive the control law. A robust control term is introduced to fix the estimation error of the nonlinear time-varying model parameters for better control performance. Finally, the Lyapunov stability analysis is performed to ensure the asymptotical convergence of the closed loop system. The simulation results show that the states of the engine can change smoothly and the thrust of the engine can accurately follow the desired trajectory, indicating that the proposed control approach is effective. The contribution of this work lies in the combination of linear system control and nonlinear system control methods to design an effective controller for the turbofan engine and to provide a new way for turbofan engine control research. 相似文献
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《中国航空学报》2023,36(4):409-422
The flight-structural dynamics of a high-aspect-ratio wing challenge the flight control design. This paper develops a reduced model of coupled dynamics with stability consideration. The structural dynamics are formulated with dihedrals, and the central loads drive the deformation. The control-oriented model with essential coupled dynamics is formulated. Modal sensitivity analysis and input–output pairing are performed to identify the control structure. Besides, an example of flight control design is provided to discuss the necessity of considering structural dynamics in controller design. Analytical coupled flight dynamics provide a system-theoretic approach for stability and facilitate model-based control techniques. Simulation results reveal the characteristics of flight-structural coupled dynamics and demonstrate that the influence of flexible modes should be considered in control design, especially in lateral dynamics. 相似文献
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针对航空发动机全包线多变量鲁棒变增益控制器设计问题,提出了一种基于混合区域极点配置的鲁棒变参数控制方法。利用Jacobian方法建立多调度参数下的发动机仿射线性变参数(Linear parameter varying,LPV)模型,用于描述发动机全包线内的非线性动态特性;针对上述LPV模型,采用仿射参数依赖Lyapunov函数设计具有H∞鲁棒性能的状态反馈控制器,给出了控制系统全局稳定性的证明;并利用混合区域极点配置方法,将闭环系统极点配置到左半平面指定位置,以保证控制系统的动态特性及稳定裕度;进而引入凸多胞技术,将参数依赖线性矩阵不等式(Linear matrix inequality,LMI)方程转化为有限维LMI进行控制器求解,并得到了全局解。针对涡扇发动机的仿真结果表明:存在复杂量测噪声干扰条件下,鲁棒变参数控制器可以实现发动机全包线内控制指令的精确跟踪,系统阶跃响应的调节时间不超过1.5s,系统无超调,对控制期望的稳态跟踪误差在0.02%以内,符合发动机控制系统技术要求。 相似文献