双环(位置环和电流环)自抗扰控制器的设计,以单点悬浮系统为研究对象,采用分级控制策略和非线性自抗扰控制方法。
Based on cascade control strategy and nonlinear auto-disturbance-rejection control (ADRC) method, double loop (position loop and current loop) ADRC was designed for single-pivot levitation system.
介绍了一种步进电动机的非线性自适应控制方案,设计了步进电动机非线性自适应位置控制器。
A nonlinear adaptive control scheme for stepping motors is presented, and a nonlinear adaptive position controller is designed.
针对清刷机器人水下作业的非线性特点,采用参数自调整模糊控制策略设计了位置模糊控制器,保证了机器人具有良好的姿态调节能力。
Due to the nonlinearity of the robot system, position controller USES the parameter self-adjusting fuzzy control strategy, which assures good pose regulating power.
针对电液位置伺服系统中存在参数的时变性、死区非线性等问题,设计了自调整模糊控制器。
Aiming at the problems such as time-variable parameters, nonlinear dead zone of the valve existing in the electro-hydraulic position servo control system, a self-tuning fuzzy controller is designed.
控制器的设计是以线性伺服控制理论为基础的,它不仅能够消除由于轨道倾斜所带来的扰动,也能使系统跟踪其设定信号,使小车稳定在参考位置上。
The control law includes the integration term which not only eliminates the constant disturbance due to the inclined rail but also assures the cart of following the given reference position.
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。
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.
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