在脉冲微分系统的理论方面,重点研究了脉冲微分系统的渐近性。
With regard to the theory of impulsivedifferential system, this dissertation focuses on the asymptotic behavior of the impulsivedifferential system.
运用李雅普·诺夫直接方法研究了脉冲微分系统及其摄动系统关于两个测度的实际稳定性。
The practical stability in terms of two measures of impulsive differential systems and its perturbed systems is developed by Lyapunov direct method.
研究了具有线性脉冲作用的常微分系统平衡态的稳定性问题。
The stability of equilibria of ordinary differential systems with linear impulse is discussed.
第五章,在讨论了上述稳定性的基础之上,把上述方法应用到脉冲控制微分系统上。
In the final chapter, some approaches mentioned above are also utilized to deal with impulsive control differential systems.
针对一般形式的常微分系统提出了脉冲指数镇定的概念。
Concepts of impulsive exponential stabilization for general differential systems are proposed.
本文研究马尔可夫调制的随机泛函微分系统和脉冲泛函微分系统的稳定性。
In this dissertation we consider the stability of stochastic functional differential systems with Markovian switching and functional differential systems with impulses, respectively.
本文研究马尔可夫调制的随机泛函微分系统和脉冲泛函微分系统的稳定性。
In this dissertation we consider the stability of stochastic functional differential systems with Markovian switching and functional differential systems with impulses, respectively.
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