Direct adaptive control for a class of MIMO nonlinear discrete-time systems

This paper considers the problem of adaptive con-trol for a class of multiple input multiple output （MIMO） nonlinear discrete-time systems based on input-output model with unknown interconnections between subsystems. Based on the Taylor ex-pand technology, an equivalent model in affine-like form is derived for the original nonaffine nonlinear system. Then a direct adap-tive neural network （NN） control er is implemented based on the affine-like model. By finding an orthogonal matrix to tune the NN weights, the closed-loop system is proven to be semiglobal y uni-formly ultimately bounded. The σ-modification technique is used to remove the requirement of persistence excitation during the adaptation. The control performance of the closed-loop system is guaranteed by suitably choosing the design parameters.     

一种新型的非线性随机大系统自适应镇定方法

研究了一类具有严反馈形式并含有Wiener噪声扰动的非线性随机大系统,其互联项满足线性增长约束。利用微分几何的理论,应用Backstepping算法,基于Lyapunov稳定性理论,选择了适合这类组合非线性系统的状态观测器,设计了自适应输出反馈分散控制律和自适应律,使得闭环,互联的非线性随机大系统实现了概率意义下的全局稳定,仿真结果表明了控制算法的有效性。     

参数未知非线性混沌系统的自适应反演滑模控制

针对一类含有非匹配未知参数和非参数不确定性的混沌系统,基于自适应反演和滑模控制方法,研究自适应反演滑模控制策略,实现了不确定混沌系统的调节问题。与现有自适应控制相比,允许系统存在非匹配未知参数和非参数化的不确定性,增强了控制系统的鲁棒性。仿真算例证明了理论研究成果的正确性和鲁棒性。     

一种基于自适应小波网络的非线性控制设计

针对含有未建模动态的非线性系统,结合非线性动态逆和小波网络提出了一种新的非线性控制方法。根据小波网络的逼近特性,利用具有在线学习能力的单隐层小波网络来补偿动态逆的误差,建立了基于自适应小波网络的控制结构,用李雅普洛夫函数导出了小波网络权值的自适应调整規则。通过自适应调节,使控制系统能对受控对象及时地作出反应。最后分析了小波网络的结构和输入。     

基于多模型结构的非线性鲁棒自适应跟踪控制

针对复杂的非线性系统,提出一种基于多模型结构的鲁棒自适应控制方法,使得系统可以在不同的运行环境下跟踪给定的信号.由多个线性模型和一个模糊模型及其相应的控制器构成基本的多模型控制系统,再引入动态结构自适应神经网络以保证系统的稳定性及抑制由频繁切换引起的噪声.最后,对某小型飞机进行全包络飞行跟踪控制的仿真,验证所提控制方法是有效的.     

Decentralized direct adaptive neural network control for a class of interconnected systems

1 .INTRODUCTIONA number of interconnected systems found in theworld, such as electric power systems ,industrymanipulators and computer networks , are oftencomposed of a set of subsystems . A centralizedcontrol strategy for the requirement of a large a-mount of information exchange between the sub-systems . A decentralized control method, devel-oped based only on local measurements ,is oftenpreferable . At present ,there have been many re-search results for adaptive control of interconnec-…     

含非线性输入的非线性系统自适应模糊控制

讨论一类含非线性输入的非线性系统的自适应模糊控制问题。首先运用隐函数存在定理证明系统的理想控制器的存在性,利用I型模糊逻辑系统对该理想控制器进行在线逼近,提出了一种具有监督器的自适应模糊滑模控制器设计的新方案。该方案通过直接自适应模糊控制器与监督控制器的适当切换,保证了闭环系统的稳定性,由此确定出建模的有界区域,而且通过引入最优逼近误差的自适应补偿项,保证跟踪误差收敛到零。仿真结果表明了该方法的有效性。     

基于观测器的非线性系统直接自适应模糊控制

针对状态不可测的一类不确定非线性系统,利用模糊系统的逼近能力,提出一种基于观测器的直接自适应模糊控制方案。该方案通过引入观测量的调制函数,使得模糊系统的输入集在有界闭区域上,从而取消了观测量有界的假设。利用Kalman Yacubovitch Popov定理及李亚普诺夫函数,证明了闭环控制系统所有信号是有界的,跟踪误差收敛到零。仿真结果表明了该方法的有效性。     

一类非匹配不确定性混沌系统的鲁棒自适应控制

针对一类含有非匹配未知参数和非参数不确定性的混沌系统控制问题,结合反演设计和“σθ-修改”参数自适应技术,提出了一种适用于输出跟踪的混沌系统鲁棒自适应控制器设计新方法,对非匹配的未知参数和非参数不确定具有鲁棒性。该控制器设计方法不仅能保证闭环系统所有信号有界,且能使跟踪误差以指数速度收敛到零的小临域内。计算机仿真验证了理论研究成果的有效性和正确性。     

Decentralized model reference adaptive sliding mode control based on fuzzy model

1.INTRODUCTIONIn recent years,decentralized control of interconnect-ed systems has become an i mportant and challengingtopic[1~3].However,it is usually difficult to modelthe systemexactly due to the complex real environ-ment.In the past several years,active research hasbeen carried out in controller design based on univer-sal approxi mators,such as fuzzy control and neuralnetwork control[4~6].For a class of SISO nonlinearsystems,adaptive fuzzy control approaches were pro-posed based on …     

不确定非线性系统的鲁棒自适应跟踪简化算法

传统的Backstepping自适应控制方法需要对虚拟控制律进行求导,从而导致“计算复杂性膨胀”。动态平面控制技术能够克服这一缺陷。将这一技术扩展到一类具有参数严格反馈形式的不确定非线性系统输出跟踪,这类系统同时包含线性参数和未知非线性函数两种不确定性。所设计的控制算法比现有算法大大简化,解决了“计算复杂性膨胀”问题;运用Lyapunov理论证明了闭环系统一致最终有界,仿真结果表明了算法的有效性。     

基于自适应模糊快速终端滑模控制的导弹自动驾驶仪设计

针对一类多输入多输出非线性不确定系统,提出了自适应模糊快速终端滑模控制方法并应用于导弹自动驾驶仪的设计。利用模糊系统具有以任意精度逼近非线性系统的能力对未知干扰和不确定性进行逼近,并通过鲁棒项提高了系统性能。基于Lyapunov方法,证明了闭环系统所有信号渐进收敛。最后利用本文提出的控制方案设计了6自由度导弹的自动驾驶仪,仿真结果表明了控制方案的有效性和鲁棒性。     

一类非线性系统的滑模控制稳态精度研究

针对一类非线性系统的线性滑模控制和Terminal滑模控制稳态精度问题,分析使用饱和函数代替滑模控制律中符号函数的线性滑模控制和Terminal滑模控制系统的稳态误差与饱和函数宽度的数值关系,得出两者的数学表达式,为协调既削弱滑模控制的颤振又保证稳态精度的滑模控制系统的饱和函数宽度的选择提供了理论依据。定量地比较线性滑模控制和Terminal滑模控制的稳态精度,得出了Terminal滑模控制比线性滑模控制有更好稳态精度的结论,通过数值仿真算例证明理论分析的正确性。     

A new neural network-based adaptive ILC for nonlinear discrete-time systems with dead zone scheme

By introducing a dead-zone scheme, a new neural network based adaptive iterative learning control (ILC) (NN-AILC) scheme is presented for nonlinear discrete-time systems, where the NN weights are time-varying. The most distinct contribution of the proposed NN-AILC is the relaxation of the identical conditions of initial state and reference trajectory, which are common requirements in traditional ILC problems. Convergence analysis indicates that the tracking error converges to a bounded ball, whose size is determined by the dead-zone nonlinearity. Computer simulations verify the theoretical results. This research is supported by General Program (60774022) and State Key Program (60834001) of National Natural Science Foundation of China, and Doctoral Foundation of Qingdao University of Science & Technology (0022324).     

Direct adaptive control for nonlinear uncertain system based on control Lyapunov function method

1 .INTRODUCTIONIn many applications , dynamics of the plant arepartially known,and esti mation is the key in de-signing a successful control . Adaptive control ,re-presents the means of achieving online esti mation,has been the focus of research in recent years .Classes of stabilizable uncertain systems have beenfound,and several adaptive control design proce-dures have been proposed[1 ~4].The purpose of this paper is to develop newsolutions tothe adaptive stabilization problemfor aclass …     

Sliding mode H∞ control for a class of uncertain nonlinear state-delayed systems

A new proportional-integral (PI) sliding surface is designed for a class of uncertain nonlinear state-delayed systems. Based on this, an adaptive sliding mode controller (ASMC) is synthesized, which guarantees the occurrence of sliding mode even when the system is undergoing parameter uncertainties and external disturbance. The resulting sliding mode has the same order as the original system, so that it becomes easy to solve the H∞ control problem by designing a memoryless H∞ state feedback controller. A delay-dependent sufficient condition is proposed in terms of linear matrix inequalities (LMIs), which guarantees the sliding mode robust asymptotically stable and has a noise attenuation level γ in an H∞ sense. The admissible state feedback controller can be found by solving a sequential minimization problem subject to LMI constraints by applying the cone complementary linearization method. This design scheme combines the strong robustness of the sliding mode control with the H∞ norm performance. A numerical example is given to illustrate the effectiveness of the proposed scheme.     

严格反馈型随机非线性系统输出反馈滑模控制

研究了一类带有不确定性参数的严格反馈型随机非线性系统的输出反馈镇定问题,主要是采用变结构滑模控制方法(SMC)来设计镇定控制器。首先根据系统的结构和输出状态构造了随机非线性状态观测器,并针对结构参数的不确定性,采用梯度自适应调节律,然后基于系统的观测状态选择滑动模切换流形,给出了不含噪声激励的变结构控制律,并证明滑动模的可达性和闭环系统滑模运动的稳定性,最后讨论了滑模控制的抖振抑制问题。通过系统仿真,与其它鲁棒控制方法进行比较,证明了本方法不仅能够有效地镇定该类随机非线性系统,并且具有一些更好的控制性能。     

参数未知随机系统的最小方差对偶自适应控制

针对参数未知随机系统的自适应控制问题,研究了最小方差对偶自适应控制。分析了由于未知参数的不确定性,使得运用动态规划原理求解最优控制律时存在着困难,转而寻求次优控制律;给出了差分方程转换成状态空间模型的方法,将未知参数在一个确定的模型集中取值,运用动态规划原理得到各模型的控制律,通过各模型后验概率加权获得次优对偶控制律。给出了算例,以验证此算法的有效性,表明所得到的控制律既有调节作用,又有学习作用。     

非线性时滞系统自适应输出反馈跟踪控制

针对一类参数化非线性时滞输出反馈系统,提出了一种自适应输出跟踪控制器的设计方案。引入时滞滤波器估计未知系统状态,采用backstepping技术设计控制律和参数自适应律,运用占优方法处理非线性时滞项,从而放宽了对非线性时滞函数的要求,实现了对给定目标轨线的全局渐近跟踪,同时保证闭环系统所有信号一致有界。基于Lyapunov-Krasoviskii泛函方法证明了整个闭环系统的稳定性。实例仿真说明了该方案的可行性。     

State derivative-free variable structure model reference adaptive control of linear parabolic systems

The problem of constructing a model dimensional parabolic system is considered in this reference adaptive control law for an uncertain 1- article. The controller designed here involves only the plant state but no its derivatives. A priori bounds on the plant＇s uncertain parameters are used to propose switching laws which serve as an adaptive mechanism. The exponential decay to zero of the state error with any prescribed rate is guaranteed by choosing a controller parameter correspondingly. Numerical studies are also presented to illustrate the applicability of the control law.