As to the difficulty in constructing a model and variable impact because of uneven ground, a fuzzy controller is made to control the velocity of the hydraulic motor.
针对液压阀控马达模型建立困难而又不准确,路面凸凹不平造成冲击载荷时变等问题,设计了模糊控制器对行走马达的速度进行闭环控制。
Two control loops are devised: a conventional PID regular is used to control the position and velocity of the trolley, and a fuzzy logic controller is proposed to the anti-swing control of the load.
为实现对小车的位置和抓斗的摆动分别控制而设计了两个控制回路,其中一个回路采用常规的PID算法来调节小车的位置和速度,同时另一个回路则利用模糊逻辑控制器来消除抓斗的摆动。
Considering the nonlinear and the parameters variability, which vary widely with the working condition in the electro-hydraulic servo velocity system, fuzzy gain scheduling controller was developed.
针对电液伺服速度系统的非线性和参数时变特性,提出了模糊增益调度控制方法。
Velocity loop servo system with fuzzy PID controller, correcting PID parameters instantaneously using fuzzy control, improved response speed, control accuracy and robustness of the system.
对伺服系统速度环采用模糊PID控制器,利用模糊控制实时修正PID参数,提高了系统的响应速度、控制精度以及鲁棒性;
The better effect could be achieved on the automatic control for the velocity regulation while the fuzzy PID controller is applied to the velocity-regulated liquid coupling.
这一模糊PID控制器对于调速型液力偶合器调速自动控制效果是比较好的。
The T-S fuzzy models of the velocity loop and position loop are constructed via the table's nonlinear dynamic model. Robust-optimal controller of velocity-loop is designed for velocity orientation.
通过转台的非线性动力学模型建立了转台速度环以及位置环的T - S模糊模型,设计了实现速率定位功能的速度环鲁棒最优控制器。
The T-S fuzzy models of the velocity loop and position loop are constructed via the table's nonlinear dynamic model. Robust-optimal controller of velocity-loop is designed for velocity orientation.
通过转台的非线性动力学模型建立了转台速度环以及位置环的T - S模糊模型,设计了实现速率定位功能的速度环鲁棒最优控制器。
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