The controller can be obtained by solving a set of LMI.
控制器的设计可以通过求解一组线性矩阵不等式(LMI)得到。
Based on LMI approach, an algorithm for solving the AMI is presented.
基于LMI方法,给出了AMI的一个求解算法。
PI control-constraint controller design is presented on the basis of LMI.
基于LMI方法,提出一种控制受约束的PI控制器的设计方法。
The parameter of fuzzy controller is got by convex optimal method of LMI.
再用线性矩阵不等式的凸优化方法求出模糊控制器的参数。
With the powerful LMI toolbox, it is very convenient to solve these problems.
凭借强大的LMI工具箱,这是非常方便的解决这些问题。
The problem is reduced to a linear convex optimization algorithm via LMI approach.
采用线性矩阵不等式方法,将问题转化为一个线性凸优化算法。
Under some conditions the guaranteed cost controllers of the systems can be obtained via LMI.
在某些条件满足的条件下,基于LMI给出了系统保代价控制器。
In recent years, the use of LMI to check stability for polytope matrices has become a useful tool.
近几年来,用线性矩阵不等式(LMI)检验矩阵多胞形稳定性已成为一个十分有用的工具。
Linear matrix inequalities (LMI) technique provides a new solution for multi-objective controller synthesis.
线性矩阵不等式(LMI)技术为多目标控制器的综合提供了新的解决途径。
With the LMI technique, a method is proposed to design satisfactory controller and optimize the sample period.
利用线性矩阵不等式理论,给出设计满意控制器及优化采样周期的方法。
LMI will provide consulting services in personnel, acquisition, supply chain, real property and financial management.
LMI将提供人事、采办、供应链、不动产和财务管理方面的咨询服务。
Based on this, a LMI for the robust perturbation bound is obtained, and the iteration method is used to calculate the bound.
在此基础上,获得了保证系统绝对稳定的鲁棒扰动界的LMI,并给出了利用迭代法获得鲁棒扰动界的方法。
In terms of multiconvexity and linear matrix inequality, this problem is proved to be equivalent to an LMI feasible problem.
采用线性矩阵不等式和多凸性处理方法,证明了该问题等价于线性矩阵不等式的可解性问题。
An example is given to illustrate the proposed LMI approach and to compare the obtained results with those in the literature.
文中给出了一个例子用来说明所提出的线性矩阵不等式方法并比较文献中已有结果。
Analyze the performance specifications required from the actual project. Then study the Satisfactory Filter arithmetic by LMI.
分析工程中所要求的各性能指标,在此基础上设计满意滤波器、利用LMI工具,推导满意滤波算法。
Similarity transformation method is used to convert a bilinear matrix inequality problem into a linear matrix inequality(LMI) problem.
针对设计过程中的双线性矩阵不等式问题,采用相似变换法将其转化为线性矩阵不等式(LMI)问题。
Then the paper studies the application of LMI filtering method in the flight test data processing. A new LMI robust filter is provided.
并以飞行试验数据滤波处理为例,研究了LMI滤波技术的应用,设计出了基于LMI的鲁棒滤波器。
An LMI design method for mean square stabilization of a class of nonlinear stochastic systems based on the T-S fuzzy model is proposed.
提出一类基于T S模糊模型的非线性随机系统均方镇定的线性矩阵不等式(LMI)设计方法。
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。
An LMI method for designing filters is obtained through matrixing, thus giving conveniently the expression of filter with LMI as tool kit.
通过矩阵变换得到了设计滤波器的LMI方法,利用lmi工具箱可以方便地得到滤波器的表达形式。
Based on LMI and delay time-derivative dependent control methods, a robust controller is designed to achieve exponential tracking stability.
本文基于线性矩阵不等式(LMI)和时延相关控制方法,设计一个控制器以实现指数稳定的跟踪控制。
A sufficient condition is obtained using finite dimension linear matrix inequalities (LMI) describing by linear (parameter-variety) control.
最后通过线性参变控制,获得了用有限维数线性矩阵不等式描述的充分条件。
This paper studies the problem of getting the optimal unbiased filter for discrete system using the method of linear matrix inequality(LMI).
给出了一种离散系统最优滤波器的线性矩阵不等式(LMI) 设计方法。
Based on the LMI approach, give a sufficient condition for decentralized stabilization and a method for the design of corresponding controllers.
基于线性矩阵不等式(LMI)方法,给出了该系统可分散控制的充分条件及相应控制器的设计方法。
The robust stable bound and the state feedback controller can be obtained by solving a class of convex optimization problems with LMI constraint.
系统的稳定界和反馈控制器可以通过求解一类线性矩阵不定式约束的凸优化问题得到。
Based on the LMI approach, a sufficient condition for decentralized stabilization and a method for the design of corresponding controllers are given.
基于L MI方法,给出了该系统可分散控制的充分条件及相应控制器的设计方法。
LMI design method for mean square stabilization of a class of nonlinear stochastic systems with time-delay based on the T-S fuzzy model is introduced.
提出了一类基于T - S模糊模型的非线性时滞随机系统均方镇定的LMI通用设计方法。
This paper can serve as a reference for applying LMI in robust predictive control and carrying out robust predictive control algorithm on microcomputer.
本文可作为在鲁棒预测控制中应用lmi和用微机实现鲁棒预测控制算法的参考。
Through the method used to study system's input-output stability and working out the LMI problem, we can attain the incremental-gain of nonlinear system.
利用系统的输入-输出研究方法,通过求解系统的线性矩阵不等式(LMI),确定了具有饱和非线性系统的增量增益。
A new method is presented for actuator fault detection and reconstruction based on linear matrix inequality (LMI) in the matched uncertain dynamic system.
针对匹配不确定动态系统,提出基于LMI的执行器故障检测与重构方法。
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