不确定离散广义系统的鲁棒无源控制

将严格无源的概念引入到离散广义系统中 ,研究了具有未知定常不确定参数的离散广义系统在有界外部输入作用下的鲁棒无源控制问题 ;利用线性矩阵不等式 ,给出了不确定离散广义系统广义二次稳定且从外部输入到被调输出之间是严格无源的 ,并在此基础上给出存在状态反馈控制器 ,使得闭环系统广义二次稳定且从外部输入到被调输出之间是严格无源 ,同时给出相应的依赖于矩阵不等式的解的控制器构造 ;数值算例说明了结论的有效性。     

不确定T-S模糊广义系统基于观测器的无源控制

针对一类范数有界不确定性T-S模糊广义系统,研究了其在满足不确定性的基于观测器的无源控制器的设计问题.在状态不可测的情况下给出了使得闭环系统广义二次稳定且无源的基于观测器的控制器存在的充分条件和设计方法.通过求解若干线性矩阵不等式,获得系统的观测增益与控制增益.最后通过数值仿真例子,说明所提出的设计方法可行、有效.     

具参数不确定性广义系统的保成本控制

考虑一类具参数不确定性广义系统保成本控制器的设计问题。针对不确定连续广义系统，利用广义二次稳定的有关结果，首次提出广义二次保成本的概念，通过采用矩阵不等式方法．导出广义二次保成本的一个充要条件，并给出一个保成本控制器的设计方法。所举实例说明了本方法的有效性。     

严格耗散广义系统的鲁棒性分析与控制

考虑不确定广义系统的鲁棒耗散性分析与控制,其中各不确定参数矩阵具有线性分式形式。针对确定广义系统建立耗散性与正实性之间的等价关系,将不确定广义系统的鲁棒耗散性分析与控制转化为确定广义系统的耗散性分析与控制,利用线性矩阵不等式,给出了不确定广义系统鲁棒严格耗散的充要条件及状态反馈鲁棒严格耗散控制器的设计方法。通过一个数值算例说明所给设计方法的有效性。     

参数不确定广义时滞系统的保性能控制

针对状态时滞的参数不确定性广义系统,讨论了它的保性能控制问题。目的是对状态时滞的参数不确定广义系统,提出它的时滞无关保性能鲁棒控制器的一个设计方法。首先给出了广义时滞系统正则、脉冲自由且稳定的严格线性矩阵不等式表示的时滞无关充分条件;然后采用线性矩阵不等式方法,给出参数不确定性广义时滞系统的时滞无关保性能控制问题可解的一个严格线性矩阵不等式表示的充分条件,在此条件可解时,给出了时滞无关保性能鲁棒控制器表达式,以及相应的可保性能指标。最后给出了所提出方法的应用。     

不确定离散广义时滞系统的静态输出反馈控制

针对一类不确定离散时滞广义系统,给出了静态输出反馈控制器的设计方法.首先基于标称离散广义时滞系统的稳定条件,以受限线性矩阵不等式形式,得到闭环离散广义时滞系统正则、因果且渐近稳定的充分条件,同时利用受限矩阵不等式的可行解给出静态输出反馈控制器的设计方法;然后采用矩阵的正交补,把求受限线性矩阵不等式的可行解问题转化为求严格线性矩阵不等式的可行解;最后的数值实例说明了所给方法的有效性和正确性.     

不确定广义系统的观测器设计

针对含仿射型不确定广义系统状态的观测器设计问题,利用不确定广义系统的已知信息通过插值法为不确定广义系统设计一个奇异全阶观测器,而且此观测器是仿射二次稳定的。观测器的状态和增益矩阵通过参数的线性插值得到,估计误差通过仿射参数独立的Lyapunov函数确定,且系统重构误差是仿射二次稳定的。给出数值仿真算例验证该算法的有效性。     

时滞区间广义系统的保成本控制

针对一类具有状态时滞的时滞区间广义系统,基于状态反馈研究了保性能控制问题。利用线性矩阵不等式(LMI)处理方法,得到了闭环时滞区间广义系统广义二次稳定以及闭环性能指标值有上界的充分条件。利用LMI的可行解给出了保性能控制器的设计方法。设计的控制器使得闭环时滞区间广义二次稳定,同时保证闭环性能指标值是具有上界。最后的数值例子说明了所给方法的有效性。     

一类T-S 模糊广义系统的无源控制

研究了一类T-S模糊广义系统的无源控制问题.通过矩阵分解方法,证明了这类系统容许的充分必要条件.在此基础上,将严格无源的概念引入到T-S模糊广义系统中,得到了使闭环系统容许、严格无源的充分条件,并将此条件用线性矩阵不等式(LMIs)表示.通过解这些矩阵不等式得到状态反馈增益矩阵.这个充分条件,可以一次判定系统的容许、严格无源.最后的数值算例说明所给方法的可行、有效.     

不确定广义系统的弹性保性能控制

将弹性控制器的设计思想引入到一类不确定广义系统中,利用线性矩阵不等式(LMI)方法,研究被控对象与控制器同时存在摄动的弹性保性能控制问题。针对控制器存在加法式摄动情形,以线性矩阵不等式约束条件给出了广义系统弹性保性能的充要条件,并以线性矩阵不等式的可行解给出了相应的控制器设计方法,通过求解具有线性矩阵不等式约束的凸优化问题,给出了性能上界最小意义下弹性控制器的设计。数值仿真表明了该设计方法的可行性。     

Two kinds of harmonic problems in control systems

This paper discusses the harmonic problems in control systems from two aspects: One is the harmonic control among different subsystems, and the other is the harmonic control among multiple inputs. Some intrinsic problems in such systems are discussed. It is pointed out that some subsystems must be unstable to stabilize the whole interconnected system by an example. Especially for discrete-time multi-input systems, a necessary and sufficient condition is presented for the strict decrease of the quadratic optimal performance index with the control input extensions. This shows an essential difference between single-input and multi-input control systems. Finally, some future research directions are discussed in harmonic control of interconnected systems, allocation of multi-control inputs, fault-tolerant control, and fault-diagnosis.     

基于自校正MPC的舰载机着舰控制技术

针对模型参数不准确条件下的全自动着舰控制技术进行了研究,设计了一种基于保辛伪谱算法(symplectic pseudospectral method,SP)和带遗忘因子递推最小二乘法(recursive least squares with forgetting factor,FFRLS)的舰载机着舰自校正模型预测控制...     

A Novel Networked Predictive Control Method for Systems with Random Communication Constraints

This paper presents a novel observer-based predictive control method for networked systems where random network-induced delays, packet disorders and packet dropouts in both feedback and forward channels are considered. The proposed method has three significant features: i) A concept of destination-based lumped(DBL) delay is introduced to represent the combined effects of random communication constraints in each channel; ii) in view of different natures of the random DBL delays in the feedback and forward channels, different compensation schemes are designed; and iii) it is actual control inputs rather than predicted ones that are employed to generate future control signals based on the latest system state estimate available in the controller. For the resulting closed-loop system, a necessary and sufficient stability condition is derived, which is less conservative and also independent of random communication constraints in both channels. Simulation results are provided to demonstrate the effectiveness of the proposed method.     

Necessary and Sufficient Optimality Conditions for Relaxed and Strict Control of Forward-Backward Doubly SDEs with Jumps Under Full and Partial Information

Journal of Systems Science and Complexity - This paper derives necessary and sufficient conditions of optimality in the form of a stochastic maximum principle for relaxed and strict optimal control...     

基于LMI的连续时间模糊大系统的分散镇定

讨论了连续时间模糊大系统的分散镇定问题。整个模糊大系统由m个相互关联的T-S子模糊系统组成。基于李亚普诺夫稳定性理论及大系统分散控制理论,将单个模糊系统的稳定性条件推广到关联模糊大系统的情形,给出了保证该模糊大系统闭环渐近稳定的分散化并行分布补偿(decentralizedparalleldistributedcompensation,DPDC)控制器的设计方法。这些分散控制器的存在条件均以LMI的形式出现,因此可通过Matlab的LMI工具箱有效地对其进行求解。仿真例子说明了所提方法的有效性。     

Static output feedback control for discrete-time fuzzy bilinear system

The problem of designing fuzzy static output feedback controller for T-S discrete-time fuzzy bilinear system (DFBS) is presented.Based on parallel distribution compensation method,some sufficient conditions are derived to guarantee the stability of the overall fuzzy system.The stabilization conditions are further formulated into linear matrix inequality (LMI) so that the desired controller can be easily obtained by using the Matlab LMI toolbox.In comparison with the existing results,the drawbacks,such as coordinate transformation,same output matrices,have been eliminated.Finally,a simulation example shows that the approach is effective.     

Non-fragile guaranteed cost control of discrete-time fuzzy bilinear system

This paper focuses on the problem of non-fragile guaranteed cost control for a class of T-S discrete-time fuzzy bilinear systems (DFBS). Based on the parallel distributed compensation (PDC) approach, the sufficient conditions are derived such that the closed-loop system is asymptotically stable and the cost function value is no more than a certain upper bound in the presence of the additive controller gain perturbations. The non-fragile guaranteed cost controller can be obtained by solving a set of bilinear matrix inequalities (BMIs). The Van de Vusse model is utilized to demonstrate the validity and effectiveness of the proposed approach.