The closed loop gain shaping algorithm is applied to the rudder roll damping system.
将闭环增益成形算法应用于舵阻摇系统。
The conception and theory of the Neural Network control and closed loop gain shaping control algorithm are introduced simply.
首先对神经网络控制概念和原理与闭环增益成形算法进行简单的介绍。
An unstable process is transformed into a minimum-phase system through mirror-injection, then solve the robust controller using closed loop gain shaping algorithm.
通过镜像映射将非稳定过程转换成最小相位系统,然后用闭环增益成形算法求解鲁棒控制器。
It is difficult to design the closed loop gain shaping controller when the controlled plant is not a square matrix, because it is involved in the pseudo inverse of matrix.
在被控对象为非方阵的系统中,由于求解控制器时涉及到矩阵求伪逆问题,很大程度上增加了闭环增益成形算法的难度。
But the robust performance is improved obviously when the closed loop gain shaping control algorithm is introduced into the ship motion system on the basis of neural network control in the thesis.
本文在神经网络直接控制船舶运动控制基础上,引入闭环增益成形算法构成闭环控制,以提高系统对环境干扰和过程参数摄动的鲁棒性。
Third, rail - to - rail amplifier output stages exhibit load - dependent gain which affects amplifier open - loop gain, and hence closed - loop gain accuracy.
第三,轨到轨放大器输出级增益与负载有关,这将影响放大器的开环增益,当然也影响了闭环增益的准确性。
For a nonlinear course keeping system for ships, a kind of nonlinear robust PID is presented, which is based on an exact feedback linearization and a closed-loop gain shaping algorithm.
针对非线性船舶航向保持系统,给出一种基于精确反馈线性化和闭环增益成形算法的非线性鲁棒pid控制器,该非线性PID控制器由非线性函数项和鲁棒pid控制器组成。
Robust PID algorithm based on closed-loop gain shaping algorithm is presented in the paper, which is applied on the level control of water tank.
基于闭环增益成形算法给出鲁棒pid算法,并将之应用于水箱液位的控制中。
Robust PID algorithm based on closed-loop gain shaping algorithm is presented in the paper, it is applied on the control of diesel engine for ships.
基于闭环增益成形算法给出鲁棒pid算法,并将之应用于船舶柴油机的控制中。
The method sets system disturbance within the feedback gain matrix f, which can be computed by iteration, in order to make the closed loop system optimum.
该方法设定外部干扰矩阵,基于全状态的分散,将系统干扰项考虑到反馈增益矩阵f中,用迭代方法求F阵以使闭环系统最优。
The robust hovering controller for helicopter was designed using mirror-injection method and closed-loop gain shaping algorithm.
用镜像映射方法和闭环增益成形算法设计了直升机的悬停鲁棒控制器。
Then, an algorithm based on iterative linear matrix inequality (ILMI) was proposed to compute the static output feedback gain of continuous uncertain T-S closed-loop fuzzy system.
为了计算连续不确定T - S闭环模糊系统的静态输出反馈增益,提出了基于迭代线性矩阵不等式的算法。
If you use a current-feedback amp with the circuit in Figure 1, the amplifier's closed-loop bandwidth depends less on the closed-loop gain and the number of input channels.
如果使用如图1电路的电流反馈放大器,放大器闭环带宽较少的依靠闭环增益和输入通道数。
The high frequency gain of the regulator is limited to suppress the high frequency oscillation of the control signal while assigning the closed-loop poles.
在配置闭环极点的同时,对调节器的高频增益加以限制,以减弱控制信号的高频振荡。
The control law makes the system closed-loop stable, and the gain of the system for the disturbance input will be limited under a scheduled upper - bound.
该控制律使系统闭环稳定,且系统对扰动输入的增益不超过某一人为设定的上界。
Third, rail-to-rail AMPLIFIER OUTPUT stages exhibit load-dependent gain which affects AMPLIFIER open-loop gain, and hence closed-loop gain accuracy.
第三,轨到轨放大器的输出状态表现出影响开环增益从而影响闭环增益精度的负载增益效应。
The pressure gain curve is used for accurate modeling of the valve but has little effect on closed loop control.
压力增益曲线被用于阀门的精确建模,但对闭环控制的影响很小。
By introducing integral variable structure and high gain observer, the closed-loop control systems is shown to be globally stable in terms of Lyapunov theory, with tracking error converging to zero.
通过引入积分型变结构切换函数及高增益误差观测器,基于李雅普·诺夫稳定性理论,证明了闭环系统是全局稳定的,输出跟踪误差都收敛到零。
We give a simple sufficient condition on control gain that guarantees globally asymptotical stability of closed loop system.
本文提出了一个简单的关于控制增益的条件,保证了闭环系统的全局渐近稳定性。
P and D gain of closed loop transfer function plus some " zero " , it increases bandwidth tracking the trajectory, without contributing to its external interference.
P和D增益对闭环传递函数加上一些“零”,使其在跟踪轨迹时增加带宽,而又不助长它的外在干扰。
The effects of the square wave cycle, phase, duty cycle and the fiber coil group delay and amplifier gain bandwidth on the bias error of closed-loop FOG were analyzed by simulating and testing.
通过仿真和测试分析了调制方波的周期、相位、占空比、光纤环的群延时以及放大电路的增益带宽对陀螺输出偏置的影响。
The high-gain parameter is appropriately chosen to make the zero solution of the closed-loop system globally asymptotically stable in probability, and regulate the output to the origin almost surely.
高增益参数选择适当使零的解决方案,闭环系统全局渐近稳定的概率,并调节输出的起源几乎可以肯定。
The high-gain parameter is appropriately chosen to make the zero solution of the closed-loop system globally asymptotically stable in probability, and regulate the output to the origin almost surely.
高增益参数选择适当使零的解决方案,闭环系统全局渐近稳定的概率,并调节输出的起源几乎可以肯定。
应用推荐