Correction to `Lyapunov stability designs for switchingregulator/low-pass filter system'

It is noted that the results obtained in the above-titled paper (ibid., vol.25, no.5, p.602-610, Sept. 1989) are erroneous since the Lyapunov matrix equation was not solved correctly and completely. Also, erroneous conclusions resulted because a solution to the ten simultaneous equations which result from the evaluation of that equation was not obtained. These errors are corrected and the Lyapunov simultaneous equations are solved. From the design of this fourth-order system, a comparison of the Lyapunov and Routh-Hurwitz methodologies for achieving asymptotic stability is obtained. It is shown that a design per the second method of Lyapunov simplifies the stability design calculations for this higher-order system     

Lyapunov stability designs for switching regulator/low-pass filtersystem

The second method of Lyapunov is employed to determine quantitatively accurate criteria for asymptotic stability of the fourth-order switching-regulator/low-pass filter system. Modeling the regulator as a linearized negative resistance, this analysis provides alternative stability relationships to those found in the literature and also reveals the limitations of the Routh stability criterion. Design examples are included which ensure system stability and reduce the amplitude of the filter resonant peak (audio-susceptibility constraint)     

On Lyapunov stability analyses of the switching regulator/filtersystem

The stability design criteria for the fourth-order switching regulator/low-pass filter system are obtained directly from the solution to the resultant simultaneous equations for the Lyapunov matrix equation. The regulator/filter system is asymptotically stable if the values of the filter components are chosen to satisfy the derived Lyapunov stability design criterion for a given value of the switcher dynamic resistance     

Nonlinear Inertial Guidance Platform Control Systems Analysis

This paper investigates the stability analysis of nonlinear inertial guidance platform control systems. The principle technique used for this investigation is the direct method of Lyapunov. First, stability criteria are derived for third- and fourth-order systems with saturation type nonlinearity by using the technique developed by R. E. Kalman and Z. V. Rekasius. A method of finding the maximum loop gain g/h is then shown, and the results are compared with those obtained by linear analyses. Finally, the stability criteria are extended to the cases when a coulomb friction type nonlinearity is included.     

风储孤网系统小干扰稳定性分析研究

从电力系统运行的一般原理出发,开展风储孤网系统小信号稳定和动态稳定的研究,保障局部地区供电可靠性。基于特征值分析法和李亚普诺夫线性系统稳定性判据,对风储孤网系统小干扰稳定性问题进行了研究。提出风储孤网系统储能单元基于下垂控制模式的储能逆变器控制策略,并根据风储孤网系统各模块的控制策略建立相应的数学模型;基于特征值分析法进行风储孤网系统各模块数学模型的小干扰稳定性分析,并根据李亚普诺夫线性系统稳定性判据进行风储孤网系统的稳定性判断;基于MATLAB/Simulink仿真平台搭建风储孤网系统仿真模型,通过仿真验证了风储孤网系统能够实现稳定运行,与小干扰稳定性分析得出的结论一致。研究成果可为风储孤网系统的运行稳定性研究提供理论参考。     

航空发动机分布式控制系统指数稳定性分析

建立具有时延与数据包丢失的航空发动机分布式控制系统模型,模型为一类异步动态系统,基于Lyapunov第二法和线性矩阵不等式方法推导了系统的指数稳定性判定定理,根据该判据可以得到分布式控制系统的指数稳定意义下的状态反馈控制律,数字仿真说明了该判据的有效性.      

A thermal-flutter criterion for an open thin-walled circular cantilever beam subject to solar heating

The flexible attachments of spacecraft may undergo Thermally Induced Vibration (TIV) on orbit due to the suddenly changed solar heating. The unstable TIV, called thermal-flutter, can cause serious damage to the spacecraft. In this paper, the coupled bending-torsion thermal vibration equations for an open thin-walled circular cantilever beam are established. By analyzing the stability of these equations based on the first Lyapunov method, the thermal-flutter criterion can be obtained. The criterion is very different form that of closed thin-walled beams because the torsion has great impact on the stability of the TIV for open thin-walled beams. Several numerical simulations are conducted to demonstrate that the theoretical predictions agree very well with the finite element results, which mean that the criterion are reliable.     

不确定线性时滞系统的鲁棒镇定控制

提出了利用构造系统的Lyapunov不等式的对称正定解，采用放大矩阵不等式的新方法，通过对鲁棒反馈控制系统不确定项进行结构表出，基于二次反馈策略构造系统的反馈镇定控制器。首先得到不确定线性时滞鲁棒系统稳定的充分条件，进而给出判别不确定线性时滞反馈系统鲁棒镇定的充分条件。所给出的定理争件易于表达，由于参数少而容易检验。     

Stability of Gyro with Harmonic Nonlinearity in Spinning Vehicle

A stability analysis of a single-axis rate gyroscope mounted in a space vehicle which is spinning with uncertain angular velocity ?z about the spin axis of the gyro is presented. The complete nonlinear equation of motion, which includes the fundamental and second harmonic nonlinear terms, arising due to ?z, is considered. For time-varying ?z(t), using the circle criterion, it is shown that the gimbal motion is globally asymptotically stable if the Nyquist plot of the linear transfer function of the gyro lies in the interior of a certain disk. For the case of uncertain constant ?z, using the Lyapunov approach, conditions for global asymptotic stability (GAS) and asymptotic stability are derived. Stable regions in parameter space of the gyro and state space are obtained. Analytical relations for the selection of gyro parameters are derived.     

Optimal trajectory design accounting for the stabilization of linear time-varying error dynamics

This study is dedicated to the development of a direct optimal control-based algorithm for trajectory optimization problems that accounts for the closed-loop stability of the trajectory tracking error dynamics already during the optimization. Consequently, the trajectory is designed such that the Linear Time-Varying(LTV) dynamic system, describing the controller’s error dynamics, is stable, while additionally the desired optimality criterion is optimized and all enforced constraints on the traje...     

非线性不确定系统的鲁棒自适应控制方法研究及稳定性分析

针对一类存在外界干扰和未建模动态的非线性不定系统,特别是含线性定常的参数不确定性及状态关联的非线性不确定性系统,应用直接自适应控制方法,设计了基于李雅普诺夫稳定性理论的鲁棒自适应控制律和修正律;应用李雅普诺夫稳定判据,对系统的稳定性进行了分析,证明所设计的控制律和修正律具有较强的鲁棒稳定性。     

Sliding-mode controller design for spacecraft attitude trackingmaneuvers

A robust sliding-mode control law that deals with spacecraft attitude tracking problems is presented. Two important natural properties related to the spacecraft model of motion are discussed. It is shown that by using these properties and the second method of Lyapunov theory, the system stability in the sliding mode can be easily achieved. The success of the sliding-mode controller and its robustness relating to uncertainties are illustrated by an example of multiaxial attitude tracking maneuvers     

非线性系统鲁棒稳定的区间判据及其在飞行控制中的应用

给出了一类非线性系统的鲁棒稳定性分析方法。通过对非线性系统的不同区域描述 ,将复杂的非线性问题转化为多个区间鲁棒稳定性问题。对区间鲁棒稳定性条件不等式进行变形 ,得到了该不等式可解的条件。此条件不仅大大简化了不等式 ,而且得到了新的鲁棒稳定性判据。进而 ,给出了非线性系统鲁棒反馈控制的设计方法。飞行控制器设计结果表明 ,本方法对不确定系统的分析和设计是有效的     

基于模糊Takagi-Sugeno模型的发动机转速鲁棒控制

基于某航空用二冲程活塞式发动机的非线性模型, 利用扇形非线性特性得到了发动机模糊Takagi-Sugeno(T-S)模型;基于该T-S模型, 采用系统增广的方法研究了无静态误差转速控制器;设计中考虑了鲁棒H∞性能, 使得该非线性系统的模糊控制器具有较好干扰抑制性能, 并在Lyapunov稳定性理论基础上建立了该系统渐进稳定的线性矩阵不等式条件;最后通过系统仿真算例验证了所设计控制器的有效性.      

全包线飞行控制系统设计方法研究

介绍了当前全包线飞行控制系统设计的几种主要方法，分析了这些方法存在的问题，研究了线性变参数系统（LPV）的自增益调度控制器设计，说明了其中两种重要的设计方法LFT（线性分式变换）法和Lyapunov函数法，应用Lyapunov函数法设计了大包线范围飞机的集镇爷角速度自增益高度控制系统，进行了变参数仿真，仿真结果说明了方法的有效性。     

Aeroelastic stability analysis of heated flexible panel subjected to an oblique shock

The critical conditions for aeroelastic stability and the stability boundaries of a flexible two-dimensional heated panel subjected to an impinging oblique shock are considered using theoretical analysis and numerical computations, respectively. The von-Karman large deflection theory of isotropic flat plates is used to account for the geometrical nonlinearity of the heated panel, and local first-order piston theory is employed in the region before and after shock waves to estimate the aerodynamic pressure. The coupled partial differential governing equations, according to the Hamilton principle, are established with thermal effect based on quasi-steady thermal stress theory. The Galerkin discrete method is employed to truncate the partial differential equations into a set of ordinary differential equations, which are then solved by the fourth-order Runge-Kutta numerical integration method. Lyapunov indirect method is applied to evaluate the stability of the heated panel. The results show that a new aeroelastic instability (distinct from regular panel flutter) arises from the complex interaction of the incident and reflected wave system with the panel flexural modes and thermal loads. What’s more, stability of the panel is reduced in the presence of the oblique shock. In other words, the heated panel becomes aeroelastically unstable at relatively small flight aerodynamic pressure.     

具有时延的漂浮基空间机器人基于泰勒级数预测、逼近的改进非线性反馈控制

 探讨了本体位置与姿态均不受控的漂浮基空间机器人在时间延迟(简称时延)情况下惯性空间轨迹跟踪的控制问题.利用拉格朗日方法并结合系统动量守恒关系,分析、建立了漂浮基空间机器人完全能控形式的系统动力学模型及运动Jacobi关系.以此为基础,针对系统存在时延的情况,利用泰勒级数预测、逼近的方法,建立了适用于时延情况下控制系统设计的数学模型.利用该模型,提出了一种空间机器人在时延情况下的改进非线性反馈控制方案.然后运用Lyapunov第二类方法,结合范数以及图形分析的方法证明了在时延情况下整个闭环控制系统的渐近稳定性.文中提到的控制方案能够有效地克服系统存在时延的影响,控制漂浮基空间机器人末端爪手跟踪惯性空间的期望轨迹.系统数值仿真结果证明了上述控制方案的有效性与精确性.     

基于T-S模糊模型的非线性分布参数系统极点配置P-sD控制CSCD

采用Lyapunov直接法讨论分布参数系统的稳定性,建立分布参数系统的Lyapunov函数。为保证分布参数系统稳定,应使Lyapunov函数对时间的微分小于0。由于分布参数系统中存在空间一次微分项与二次微分项,Lyapunov函数对时间的微分中将出现常数项与积分项,针对常数项,引入空间一次微分项来抵消;针对积分项,引入对应的状态反馈来使系统稳定。利用边界条件量化Lyapunov函数对时间的微分中的各项,从而设计控制器,这是一种新的设计P-sD状态控制的方式。其中状态反馈的部分采用极点配置的方法来设计,当分布参数系统中出现状态变量的非线性函数时,采用T-S模糊模型表达,可以通过状态变量的线性组合精确描述非线性项,以便极点配置设计状态反馈。针对两个非线性分布参数数学模型进行仿真,结果证明设计的P-sD状态控制器可以使分布参数系统稳定,并达到期望的效果。     

机翼颤振的鲁棒自适应切换控制

将机翼颤振问题对应的气动伺服弹性系统动态,看做沿飞行轨迹或特定飞行动作的若干模型的连续切换,引入切换系统描述其包线内的动态特性。进而,基于多Lyapunov函数方法和模型参考自适应控制(MRAC)理论,提出一种机翼颤振鲁棒自适应切换控制方案。该方案允许不同速度设计点的模型及对应控制器进行快速切换,以全面覆盖飞行包线内的系统动态,获得良好的机翼颤振主动抑制效果,有效规避自适应控制需要参数缓慢变化的缺陷。同时,构建Lure-Postnikov形式的Lyapunov函数,采用多Lyapunov函数方法,以线性矩阵不等式的形式,推导闭环切换系统为有界MRAC系统的充分条件,确保飞行包线内颤振抑制的全局稳定性。     

预防Ⅱ型PIO的作动器设计

重点分析由作动器非线性因素(速率限制)引起的Ⅱ型PIO问题。将非线性因素线性化,采用赫尔维茨稳定性方法分析线性时不变系统的稳定性,采用二次型稳定性方法分析参数时变系统的稳定性。运用ROBAN算法确定稳定域,进而得到条件分析模型,分析了三种条件下的PIO趋势,给出合适的作动器设计方法。仿真研究表明,采用该方法设计的作动器使得某型飞机飞控系统具有良好的鲁棒性,可以有效避免Ⅱ型PIO的产生。