1) delayed impulsive feedback control
时滞脉冲反馈控制
1.
Chaos is controlled by implementing delayed impulsive feedback control at each boundary(n=3).
选择边界作为Poincar截面定义周期轨,通过在每个边界(n=3)实施时滞脉冲反馈控制来控制混沌,同时对该方法的收敛性进行了理论分析以及数值验证,最后分析了多边控制与单边控制的收敛性。
2.
In order to control its chaotic behavior, many methods are proposed in succession, such as upper and lower limits placed on the volumes of the buffers, changing the limited continuous processing time, controlled internal connections and delayed impulsive feedback control.
为抑制其混沌现象,相继产生设定缓冲器值的上限或下限方法、设定服务器连续注入时间上限方法、可控内部连通方法、时滞脉冲反馈控制方法等。
2) delayed feedback control
时滞反馈控制
1.
The mechanism for the action of delayed feedback control in a nonlinear system with external periodic forcing is investigated in this paper.
研究时滞反馈控制对具有周期外激励非线性系统复杂性的影响机理,研究对应的线性平衡态失稳的临界边界,将时滞非线性控制方程化为泛函微分方程,给出由Hopf分岔产生的周期解的解析形式。
2.
Combining with drive and delayed feedback control methods,a new asymptotic synchronization standard is proposed,in which,we can make the drive system and the response system achieve synchronization with two controllers.
利用驱动和时滞反馈控制的混合方法,从理论上提出了渐近同步的新标准。
3) time-delayed impulsive control
时滞脉冲控制
4) time-lag output feedback control
时滞输出反馈控制
1.
For a class of chaotic systems which include Lur e systems and Lipschitz systems,the sufficient criterion for uniform sysnchronization under time-lag output feedback control is deducecd by Lyapunov function method.
本文对一类包含Lur’e系统和Lipschitz系统在内的混沌系统,应用Lyapunov函数方法导出通过时滞输出反馈控制实现一致同步的充分条件,该判据用矩阵不等式的形式给出。
5) delayed position feedback control
位置时滞反馈控制
1.
Sub-harmonic resonances of the non-autonomous system with delayed position feedback control;
一类非自治位置时滞反馈控制系统的亚谐共振响应
6) time-delay state feedback controller
时滞状态反馈控制器
补充资料:反馈控制(见控制系统)
反馈控制(见控制系统)
feedback control
于。。伙。]伙ongZ片}反馈控制(几edbaekcontrol)见拉制系统。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条