Thecontrollers guarantee the system quadratic stability.
此控制器确保系统二次稳定。
The predictive quadratic stability control algorithm is given which can guarantee the stability of control systems.
这种控制算法可以保证控制系统的稳定性。
The illustrative example shows that this method is effective to check the quadratic stability of discrete-time interval 2-D systems.
所给出的数值算例表明该判定条件可以有效地判定离散区间2-D系统是否二次稳定。
The problem of global quadratic stability of switched nonlinear systems in block-triangular form under arbitrary switching is addressed.
研究具有块三角结构的非线性切换系统在任意切换下的全局二次稳定性。
The problem of quadratic stability and controller design for T-S fuzzy systems is studied using the linear matrix inequality(LMI)methods.
应用LMI(线性矩阵不等式)方法,研究了T-S模糊系统二次稳定性及控制器设计问题。
A new robust reliability method for stabilizing controller design of uncertain systems is presented based on quadratic stability criterion.
基于二次稳定性准则,提出了参数不确定系统鲁棒镇定控制器设计的鲁棒可靠性新方法。
This paper presents a condition in terms of linear matrix inequalities (LMIs) for the quadratic stability of discrete-time interval 2-d systems.
本文针对离散区间2 - D系统的二次稳定性问题,给出了线性矩阵不等式形式的判定条件。
In this paper, a new design method of robust predictive control, predictive quadratic stability controller, is proposed based on GPC state feedback.
基于广义预测的状态空间形式,提出了一种新的鲁棒预测控制设计方法—预测二次稳定控制器。
A sufficient condition for quadratic stability of switched linear systems under arbitrary switching laws is presented in terms of linear matrix inequality.
讨论了一类具有非线性摄动的线性切换系统在任意切换律下的二次鲁棒稳定性问题。
Finally, the definition of quadratic stability is introduced, and the relation between quadratic stability and robust stability of the systems is discussed.
最后,引入了广义周期时变系统二次稳定的概念,并讨论了二次稳定性与鲁棒稳定性之间的关系。
Due to the idea of parameter-dependent Lyapunov stability, the obtained robust stability condition has less conservativeness than the one based on quadratic stability.
因为使用了参数依赖的李亚普诺夫稳定性思想,此鲁棒稳定条件比基于二次稳定概念的稳定条件的保守性更小。
This paper is concerned with the quadratic stability conditions of discrete fuzzy control systems that relax the existing conditions reported in the previous literatures.
本文主要研究对离散模糊控制系统的二次稳定性条件,放松以前的文献结果的条件。
The linear matrix inequality (LMI) criterion is proposed when quadratic stability, disturbance attenuation and actuator input saturation problems are discussed through non-fragile state feedback.
时,提出二次稳定性,干扰抑制和致动器输入饱和的问题进行了讨论,通过非脆弱状态反馈线性矩阵不等式(LMI)的标准。
This paper investigates the quadratic robust stability problem for a class of switched linear systems with uncertainties.
本文研究了一类不确定线性切换系统的二次鲁棒稳定性问题。
The problem for the robust stability and quadratic performance control of linear neutral time-delay systems is studied with non-match norm-bounded uncertainties.
针对含有非匹配条件的范数有界线性不确定中立型时滞系统,研究该类系统的鲁棒稳定和二次性能控制问题。
Based on a piecewise quadratic Lyapunov function, this paper presented a stability analysis and optimal controller design method for piecewise linear systems.
对于分段线性系统稳定性分析以及控制器的优化设计问题,本文给出了一种基于分段二次李雅普·诺夫函数的求解方法。
This paper discusses the problem of robust quadratic guaranteed stability for parameter uncertain systems.
研究了不确定线性系统的鲁棒二次保稳定设计问题。
In view of its features, we use sequence quadratic programming planning to solve the problem effectively, in which convergence carries through fast and the stability is fine.
根据问题的特点,本文采用了收敛速度快、稳定性好的序列二次规划法对模型进行了有效求解。
In this paper, a study on robust stability of linear quadratic regulator (LQR) problem in the case with uncertainties is performed. A new robustness measure is proposed.
本文讨论不确定性系线最优调节器(LQR)的鲁棒稳定性问题,并提出了一种新的评价系统鲁棒稳定性的指标。
Further convex partitioning of the state's regions increases the possibility of finding the piece-wise quadratic Lyapunov functions, which reduces the conservativeness of the stability analysis.
对PWA模型的状态区域进一步的细化凸划分,以增加找到分段二次lyapunov函数的可能性,减低闭环系统稳定性分析的保守性。
Then, a new sufficient condition for the stability of open-loop system is proposed based on linear matrix inequality (LMI); and a fuzzy controller is designed via non-quadratic PDC control law.
然后,基于一系列线性矩阵不等式,得到了开环系统稳定的充分条件,进而又基于非二次PD C控制律,设计出了模糊控制器。
Then, a new sufficient condition for the stability of open-loop system is proposed based on linear matrix inequality (LMI); and a fuzzy controller is designed via non-quadratic PDC control law.
然后,基于一系列线性矩阵不等式,得到了开环系统稳定的充分条件,进而又基于非二次PD C控制律,设计出了模糊控制器。
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