1)LMI approach线性矩阵不等式方法
1.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 。
英文短句/例句
1.A Linear Matrix Inequality Approach to Design Filter;利用线性矩阵不等式方法设计滤波器
2.LMI-based Method for Power System Stability Analysis with Considering Time-delay电力系统时滞稳定分析的线性矩阵不等式方法
3.Application of Relaxation Solution for a Class of Bilinear Matrix Inequalities一类双线性矩阵不等式松弛解法的应用
4.Research on Linear Matrix Inequality Based Nonlinear Model Predictive Control;基于线性矩阵不等式的非线性预测控制研究
5.Application of Linear Matrix Inequality in Robust Stability Analysis;线性矩阵不等式在鲁棒稳定性分析中的应用
6.Robust Strategy for Dynamic Portfolio Based on Linear Matrix Inequalities;基于线性矩阵不等式的动态投资组合鲁棒策略
7.H_2 CONTROL FOR SINGULAR SYSTEM BASED ON STRICT LINEAR MATRIX INEQUALITY基于严格线性矩阵不等式的奇异系统的H_2控制
8.Linear maps preserving Jacobi identity on the full matrix algebras全矩阵代数上保Jacobi恒等式的线性映射
9.PE_k solution for linear equation system with special M-matrix as its coefficient matrix系数矩阵为特殊M-矩阵的线性方程组的PE_k解法
10.The condition of the stability of closed-loop system is finally listed as linear matrix inequation.闭环系统的稳定性条件最终是以线性矩阵不等式的形式给出的。
11.LMI-Based Robust Stability Analysis for Uncertain Delayed Neural Networks基于线性矩阵不等式的不确定延迟神经网络鲁棒稳定性分析
12.Tracking Control of Nonholonomic Chained-Form System Based on Linear Matrix Inequality基于线性矩阵不等式的链式系统跟踪控制律设计
13.The Condition of Equalities forFiedler and Bapat-Kong Matrix Inequalities;Fiedler矩阵不等式和Bapat-Kwong矩阵不等式的等式条件
14.Matrix Versions of the Wielandt Inequality;Wielandt不等式的矩阵形式
15.CAUCHY-BUNIAKOWSKI INEQUALITY IN THE FORM OF MATRICES;Cauchy-Buniakowski不等式的矩阵形式
16.Stability and Stabilization of Singular Systems with Time-Delay:an LMI Approach;基于线性矩阵不等式的时滞广义系统的稳定性与镇定
17.An Exponential Stability of Neural Networks with Time-varying Delays Based on LMI approach基于线性矩阵不等式的变时滞神经网络指数稳定性
18.Some results on idempotency and tripotency of linear combinations of matrices矩阵线性组合幂等性及立方幂等性的一些结论
相关短句/例句
LMI线性矩阵不等式方法
1.Firstly, the new controller is designed based on linear matrix inequality (LMI) method to accommodate the time delay effect.基于线性矩阵不等式方法(LMI)设计考虑时滞影响的直流附加控制器结构;基于粒子群、以控制器时滞稳定域最大为目标函数,对控制器参数进行寻优求解;最后由射影控制理论获得等效的低阶输出反馈控制器。
2.A sufficient condition for the existence of guaranteed cost controller is derived in terms of linear matrix inequalities(LMIs).采用线性矩阵不等式方法,导出了一个用线性矩阵不等式表达的保性能控制律存在的充分条件;在此基础上,建立并求解一个凸优化问题,给出了最优保性能控制律的设计方法。
3)bilinear matrix inequality approach双线性矩阵不等式方法
4)linear matrix inequality (LMI) approach线性矩阵不等式(LMI)方法
5)linear matrix inequality(LMI) approach线形矩阵不等式方法
6)linear matrix inequality线性矩阵不等式
1.Active vibration control strategy based on linear matrix inequality for rotor system;基于线性矩阵不等式的转子系统振动主动控制
2.Analysis of pinning control strategies based on linear matrix inequality;基于线性矩阵不等式的牵制控制策略分析
3.Tracking Control of Nonholonomic Chained-Form System Based on Linear Matrix Inequality基于线性矩阵不等式的链式系统跟踪控制律设计
延伸阅读
Harnack不等式(对偶Harnack不等式)Harnack不等式(对偶Harnack不等式)quality (dual Hatnack inequality) Harnack in- 【补注】一直到G的边界的H助nack不等式,见【AZI.l翻..‘不等式(对停H山丸朗k不等不)[ Har.改沁-勺函勺(d切红Hat’I犯‘k如为uaJ卿);rap.姗二p魄HcT助(月加湘oe)] 给出正调和函数的两个值之比u(x)/“(y)的上界和下界估计的一个不等式,由A.Hai,剐火(汇IJ)得到.令u)0是n维E议当d空间的区域G中的一个调和函数;令E。(y)是中心在点y处半径为;的球{x:}x一y!<;}.若闭包万了刃.CG,则对于所有的、“凡(,),o0是常数,亡“(省:,…,氛)是任一。维实向量,叉‘G.不等式(2)中的常数M仅依赖于又,A,算子L的低阶项系数的某些范数以及G的边界与g的边界之间的距离. fy,1, …粤馨 对于形如u:+Lu“0的一致抛物型方程(算子L的系数可以依赖于t)的非负解:(x,t),类似于1压ar-恤比不等式的不等式也成立.在此情形下,对于顶点在点(y,动处开口向下的抛物面(图a) {(x,t川x一,I’<。,(T一t),:一v,簇t簇:}的内部的点(x,t),只能有单边的不等式(fs」): u(x,r)(M妇(y,T),这里,M依赖于y,T,又,A,料,,,算子L的低阶项系数的某些范数,以及抛物面的边界与在其中“(义,t))0的区域的边界之间的距离.例如,如果在柱形区域 Q二Gx(a,b],中“〕O,此外,歹CG,并且如果刁G与刁g之间的距离不小于d(>0),而d充分小,那么在gx(a一矛,bJ中不等式 。(、.t、___/,、一。1,.:一:.八 1。,二之二止,二止匕成几11止二一一丈‘.+一+11 u气y,T)\下一I“/成立(协J).特别地,如果在Q中u)0(图b),且如果对于位于Q中的紧集Q,和QZ有 占“们山n(t一:)>0, (义,t)‘Q- (y.下)〔QZ那么有 n知Lxu(x,t)簇M nunu(x,t), (x,‘)‘QZ(x,‘)‘Q-其中M“M(占,Q,QI,QZ,L).函数 ·、·,‘卜exn(‘睿,、‘一暮“:)—对于任意的k,,…,气,它是热方程u,一△拟“0的解—表明在抛物型情形下双边估计的不可能性,
