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- By the corollary to Theorem 4. 3, the origin is asymptotically stable. 根据定理4.;3的推论;原点是渐近稳定的。
- By the corollary to Theorem 4.3, the origin is asymptotically stable. 根据定理4.3的推论,原点是渐近稳定的。
- The designed controller guarantees the closed-loop system to be asymptotically stable and possesses good operation. 所设计的控制器可确保闭环系统渐近稳定,且具有良好的可操作性。
- A dual-model control law is proposed to make the controlled systems asymptotically stable. 进而提出了一个双模控制律,可使系统渐近稳定。
- So long as this minimization problem is solved, the whole system is asymptotically stable. 只要该最小化问题有解,则整个系统是渐近稳定的。
- A PD controller is used in the position loop to construct an asymptotically stable system. 接著在位置迴路中以PD控制器以建构一渐进稳定的闭迴路回授控制系统。
- By solving the LMI, we get the controllers which make the systems be asymptotically stable when sensors experience failures. 通过解线性矩阵不等式获得此控制器,使得当传感器器发生故障时被控系统能够保持渐近稳定。
- Then the closed-loop system controlled by that controller is globally asymptotically stable and local quadratically stable. 在该控制器作用下的闭环系统,是鲁棒全局渐近稳定和局部二次稳定的。
- If R0 is less than or equal to 1, then the malarial parasites infection-free equilibrium is globally asymptotically stable. 若R0小于或等于1,则疟原虫未染平衡点全局渐近稳定。
- The expression of the analytic solution is given, and the conditions under which the zero solution is asymptotically stable are obtained. 给出了解析解的表达式,得到了零解渐进稳定的条件。
- The paper is regarding a fourth-order rational difference equation, proving that the positive equilibrium point of the equation is globally asymptotically stable. 研究了一个四阶有理差分方程,证明了该方程的正平衡点是全局渐近稳定的。
- Then, the Lyapunov function, linear matrix inequality (LMI) methods were used to derive a sufficient condition, which could ensure that the NCS was asymptotically stable. 然后采用李亚普诺夫函数、线性矩阵不等式的方法推导出了该网络化控制系统渐近稳定的充分条件。
- A switching function with a difference compensator is designed, which guarantees that the movement of the system is asymptotically stable in the quasi-switching manifold. 其次设计了带有差分补偿器的切换函数,使得系统在准切换流形上的运动渐近稳定。
- The Lyapunov function,linear matrix inequality(LMI) methods are used to derive a sufficient condition,which can guarantee that the NCS is asymptotically stable. 采用李亚普诺夫函数、线性矩阵不等式的方法推导出一类网络化控制系统渐近稳定的充分条件。
- It is proven that the solution of the nonlinear complementarity problem is an asymptotically stable equilibrium point of the proposed differential system. 然后,对此方程组给出了一种微分方程解法,并且证明了非线性互补问题的解是微分方程系统的渐进稳定平衡点。
- The solution of this model is asymptotically stable and tends to the steady state of the Solow model with zero population fluctuation on the economic growth is discussed. 通过引入变动人口增长率;讨论人口过渡时期和人口波动对经济增长的影响;并给出数值计算结果.
- The Lyapunov function, linear matrix inequality (LML) methods are used to derive a sufficient condition, which can guarantee that the NCS is asymptotically stable. 采用李亚普诺夫函数、线性矩阵不等式的方法推导出一类网络化控制系统渐近稳定的充分条件。
- By means of Lyapunov method, a novel delay-dependent condition is given, which enables the networked control system to be asymptotically stable in the mean-square sense. 利用李亚普诺夫方法,给出了使网络控制系统均方渐近稳定的新颖且与时延相关的条件。
- Specially, if the death rate due to disease equals zero, the sole equilibrium point of the limit equation for endemic is asymptotically stable in global field. 特殊地,无因病死亡时,极限方程的惟一地方病平衡点是全局渐近稳定的。
- The system was proved to he asymptotic stable by using Lyapunov direct method. 而后用李亚普诺夫方法对其进行了稳定性分析,结果证明系统能够渐近稳定。
