This paper proposes the application of extended minimum error excitation (MEE) method to designing decentralized output feedback controllers for multi-machine power systems.
本文将最小误差激励(mee)法推广应用于多机电力系统分散输出反馈控制器的设计。
In the feedback controller design, a proportional controller is used to regulate the output error of piezoelectric actuators.
在反馈控制器中比例控制器用来调节压电作动器的输出误差。
In this paper, the impact of channel estimation error on the performance of multiuser Multiple-Input Multiple-Output (MIMO) transmission based on limited feedback information is analyzed.
该文针对存在信道估计误差的有限反馈多用户多输入多输出(MIMO)传输性能进行分析。
It can identify the parameters of a controlled object by forming a fake output and bring in a feedback error for performing an on-line training to decouple the neural network.
它通过构造伪输出辨识被控对象参数,引进反馈误差,实现对解耦神经网络的在线训练。
This controller has some advantages: when the initial error is large, the PD feedback part plays main role, and it avoids too large initial torque output;
该控制策略的优点在于当初始误差较大时,PD反馈部分起主要作用,而非线性PD的采用又避免了过大初始力矩输出;
Based on these theories, we can deduce the error diffusion with output-dependent feedback method that can control the dot-gain distortion well.
由此,可以演化出根据设备特性反馈改变簇点中少数点多少的绿噪声半调算法,使得程序的健壮性提高,对点增益现象可以很好的控制。
Based on these theories, we can deduce the error diffusion with output-dependent feedback method that can control the dot-gain distortion well.
由此,可以演化出根据设备特性反馈改变簇点中少数点多少的绿噪声半调算法,使得程序的健壮性提高,对点增益现象可以很好的控制。
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