To the large time-delay system, the control result of conventional fuzzy controller can not be satisfied.
对于大滞后对象,传统模糊控制器的控制效果并不理想。
Aiming at the problem that conventional PID controller of water turbine regulator can not on_line identify and decide parameter itself, FUZZY PID is proposed by combining with FUZZY control technique.
针对常规pid控制器在水轮机调速器不能在线进行参数自整定的问题,结合模糊控制技术,提出了PID参数模糊(FUZZY)自整定。
Because of the nonlinear foundation of nonlinear vibration systems, the linear controller used in nonlinear vibration active control based on traditional control theory can not work very effectively.
由于非线性振动系统的非线性本质,基于传统控制理论的线性控制器用于非线性振动控制效果不佳。
The main objective of control theory has long focused on the stability analysis of system equilibrium and stabilizing controller synthesis. But these can not meet the practical need anymore.
控制理论长期以来将控制目的主要集中于系统平衡位置稳定性和设计控制器以保证对系统进行镇定上,已不能符合控制系统当今的实际要求。
Repetitive control can make compensation for roll eccentricity and robust PID controller is not sensitive to uncertainty of model.
本文提出一种基于重复控制进行偏心补偿,鲁棒pid控制器对模型不确定性不敏感的带钢厚度控制系统。
This paper introduces an advanced traffic signal controller, which can not only implement multi-time block control, but also can be connected with network in order to realize on-line control.
介绍一种技术性能比较先进的交通信号控制机,这种信号机不仅能够自动地进行多时段控制,还可以接入网络实现在线控制;电路设计采用模块式的电路结构,可根据用户的功能需要增减模块电路。
This paper introduces an advanced traffic signal controller, which can not only implement multi-time block control, but also can be connected with network in order to realize on-line control.
介绍一种技术性能比较先进的交通信号控制机,这种信号机不仅能够自动地进行多时段控制,还可以接入网络实现在线控制;电路设计采用模块式的电路结构,可根据用户的功能需要增减模块电路。
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