The time varying singular delay differential systems will be discussed.
本文将研究时变退化时滞微分系统。
The decoupling problem for a class of nonlinear MIMO time-delay systems is studied with differential geometric method.
利用微分几何方法研究了一类非线性多输入多输出时滞系统的解耦问题。
System stability is prone to be guaranteed by using the proposed control method due to the fact that the modal control law is designed directly from time-delay differential equation.
由于模态控制律直接通过时滞微分方程而得出,因此所给控制方法易于保证控制系统的稳定性。
Delay time and synchronous technology which are the key technology of optical differential protection are introduced.
本文对光纤差动保护的关键技术——光纤传输的延时和同步技术进行了阐述。
With Picosecond Event Timer and other techniques measuring the differential time of flight, the accuracy of the atmospheric delay could achieve millimeter level.
采用皮秒级事件计时器等技术测量往返时间差,修正精度可以达到毫米量级。
The differential equation of motion of the system is first transformed to a state-space model with time delay control input.
首先将系统的运动微分方程改写成状态空间模型,其控制输入中存在时滞。
Finally, the stability of a type of time-varying differential system with multi-delay was discussed.
最后,讨论了一类时变多时滞微分系统的稳定性。
The uncertain time-delay systems under consideration are described by state differential equations with time-varying unknown-but-bounded uncertain parameters and delayed state.
所考虑的不确定时滞系统具有时变未知且有界的不确定参数和状态时滞。
The uncertain time-delay systems under consideration are described by state differential equations with time-varying unknown-but-bounded uncertain parameters and delayed state.
所考虑的不确定时滞系统具有时变未知且有界的不确定参数和状态时滞。
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