Then based on the above analysis, we present the method of using output voltage pulse differential feedback to control chaos in the buck converter.
在此基础上提出了利用输出电压的脉冲微分反馈对这类电路系统中的混沌进行控制的方法。
A new control approach is presented with a "local strain compensation" and a low cutoff frequency inertial link feedback in place of the differential one.
提出了“局部激励应变补偿”和把通常的微分负反馈改为低截止频率的惯性环节正反馈的控制新方案。
Pseudo differential feedback sub variable (PDFSV) control method is expounded.
论述了伪微分反馈次变量(PDFSV)控制方法。
The idea and basic problem in variable structure control, differential geometry method on feedback linearization , inverse system method, direct feedback linearization method are mainly described.
主要介绍了变结构控制、反馈线性化的微分几何方法、逆系统方法、直接反馈线性化等方法的基本思想和基本问题。
Differential control introduced by all state feedback control could forecast the trend of system response, and effectively restrain speed overshoot.
全状态反馈控制所引入的微分控制,可以预见系统响应趋势,它的引入可以有效地抑制速度响应超调。
Comparison between the direct feedback Iinearization (DFL) theory and the differential geometric feedback linearization theory for nonlinear control systems is presented.
对非线性控制系统的直接反馈线性化(DFL)方法与微分几何反馈线性化方法进行了比较研究。
Differential algebraic strategy can be applied to address the dynamic feedback control problems effectively in the nonlinear systems, with Flatness an important concept in the differential algebra.
微分代数采用动态反馈控制实现一类非线性系统的控制,平滑性是微分代数的重要概念。
Based on existed methods of chaotic control, a method of controlling chaos is proposed, in which only a single variable differential feedback is used.
在已有的几种混沌信号的控制方法基础上,提出了用状态变量的一阶微分反馈法。
Flow is measured via an orifice plate metering run with a differential pressure transmitter providing feedback to the control loop.
这需要比例调节阀和流量测量形成的回路控制。
A comparative study of two decoupling control methods based on vector control and nonlinear multi-input-multi-output state-feedback based on theory of differential geometry is researched.
对异步电动机的矢量控制和基于微分几何理论的非线性多输入多输出状态反馈两种解耦控制方案作理论和试验比较研究。
In the proposed control method, a state differential feedback procedure is used to stabilize the robot and an artificial field combined with the posture error is introduced to navigate the robot.
在分析经典轨迹跟踪控制律缺点的基础上,算法中引入了机器人位姿误差的纵坐标误差以加速机器人的轨迹逼近速度,并采用人工场和位姿误差协同作用来共同完成机器人的导向控制。
In the proposed control method, a state differential feedback procedure is used to stabilize the robot and an artificial field combined with the posture error is introduced to navigate the robot.
在分析经典轨迹跟踪控制律缺点的基础上,算法中引入了机器人位姿误差的纵坐标误差以加速机器人的轨迹逼近速度,并采用人工场和位姿误差协同作用来共同完成机器人的导向控制。
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