提出了一种模糊控制与专家控制相结合的比例控制器。
This paper gives a proportion controller combined by fuzzy control and expert control.
提出了结合了比例控制器和PI控制器特点的P2I算法。
We proposed P2I algorithm combined with proportional controller and PI controller.
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 the feedback controller design, a proportional controller is used to regulate the output error of piezoelectric actuators.
本文介绍在比例控制器中设计状态观测器重构阀的状态来实现状态反馈;
State feedback is achieved by reconstituting the state of the valve with designing state viewer in proportional controller.
在一些场合,过程变量仅仅要求控制在设定值的周围,纯比例控制器就足够了。
In cases in which the process can be controlled within a band from the set point, proportional only controller are sufficient.
本文介绍一种通过坐标变换生成容积式偏心转子比例控制器凸轮理论廓线的方法。
The coordinate changing method used to bring the CAM theory profile of the eccentricity rotor tri-proportion controller was introduced in this paper.
通过优化模糊pi控制器的量化因子和比例因子,从而优化隶属函数,使控制系统具有很好的稳态和动态性能。
Though optimizing quantification factor and proportionality factor of Fuzzy-PI controller, optimizing the membership function, then make the system response has good dynamic and steady performance.
PID控制器性能好坏的关键在于比例、积分和微分参数的选择。
The performance of PID controller lies in the choice of proportional, integral and different coefficient.
利用比例微分控制器对系统的混沌行为进行了有效的控制。
The chaos of the system is controlled by means of the proportional and differential controller.
基于界面图形化方式,提出以扩充临界比例法为基础的直流输电系统PID控制器参数优化方法。
Using interface graphic scheme, this paper presents the parameter optimization method for DC transmission PID controller based on expanding critical ratio method.
介绍了均匀设计的基本原理及其在模糊控制器的量化因子和比例因子优化设计中的应用方法。
The basic principle of uniform design and its application in the optimal design of the quantifying factors and the scale factor of a fuzzy controller are introduced.
依据实际工况,设计了一种模糊自适应PID控制器来控制电液比例调速阀阀口的开口量,实现系统的安全、平稳制动。
According to actual conditions, design a fuzzy adaptive PID controller to control the openings of the electro-hydraulic proportional valve port, implementing a safe and smooth braking.
本文提出一种基于PI算法的自调整比例因子模糊控制器。
The paper bring forward a fuzzy controller of self-tuning proportion factor based on PI arithmetic.
逆变系统采用带前馈校正的变比例变积分系数的模糊控制器,提高了系统的动态响应指标;
The inverter system adopts digital fuzzy controller with feed forward correction and which proportion coefficient and integral coefficient is changeable, so dynamic response is improved.
内回路采用常规比例调节器,外回路采用带辨识器的单神经元pid控制器。
The inner loop USES a general proportion adjuster and the outer loop USES a single neuron PID controller with identification implement.
仿真结果表明,基于自适应模糊PID控制器的电液比例排量变量泵具有良好的动态性能。
Simulation results show that the dynamic characteristic of electro-hydraulic proportion controlling radial piston pump using this self-adapting fuzzy PID controller is very good.
介绍了一种能够根据位置误差和误差变化率自动调整模糊规则和比例因子的规则可调自适应模糊控制器。
A kind of adaptive fuzzy controller was introduced whose control-rule and scale-gene can be adjusted by itself according to the system position error and error change ratio.
在分析分数阶微积分的基础上,提出了一种新型模糊分数阶比例积分微分控制器。
A novel fuzzy fractional order proportional integral derivative (FFPID) controller based on fractional calculus is presented.
为了有效地抑制网络延时对网络控制系统性能的影响,提出了一种鲁棒数字比例积分微分(PID)控制器设计方法。
In order to restrict the influence of network-induced delays on the performance of networked control systems, a novel robust proportional-integral-differential (PID) control technique was proposed.
本文利用自调整模糊控制器对比例因子和量化因子进行了优化,取得了满意的效果。
The effects of quantitative factor and proportionality factor on the performance of a system with fuzzy controller are discussed.
内环控制器由三阶ESO、线性比例微分控制律和静态解耦律组成。
The inner-loop controller is composed of a third-order ESO, a linear proportional-derivative control law and a static decoupling law.
基于一阶比例-积分控制器分析了弱光61单元自适应光学系统的控制特性。
The control characteristics of low light level 61 element adaptive optical system are analyzed based on an one order proportional integral controller.
自调整比例因子模糊控制器是利用一定的方式自动调整模糊控制器的比例因子,从而达到期望的控制目的。
The fuzzy controller of self-adjusting proportion factor is a fuzzy controller that USES a certain way to adjust its proportion factor automatically, and gets the control aim hoped.
该控制器不仅具有自学习自适应能力,而且具有自调整比例因子功能。
It has not only the learning ability and the adaptability, but also the self-adjusting factor function.
在简单模糊控制器的基础上,利用PI控制算法自动调整模糊控制器比例因子。
PI arithmetic is utilized in fuzzy controller to adjust the proportionality factor of fuzzy controller automatically.
该文提出一种适用于一阶或二阶加延迟系统的自校正比例-积分-微分控制器的设计方法。
A new design approach for self-tuning PID controller with parameter optimization is proposed in this paper.
利用模糊控制器具有的输入输出比例特性及非线性系统的波波夫稳定判据,提出了在保证被控系统稳定的前提下模糊控制器的系统化设计方法。
A systematical method of fuzzy controller design is introduced based on the Popov stability criterion and proportion property of input to output of the fuzzy controller.
另外,整体的比例积分控制器、RFI过滤器,制动斩波器和各种电动机保护功能确保其可靠性,并有效节省能量。
In addition, the integrated proportional-integral controller, RFI filter, and brake chopper and extensive motor-protection functions ensure reliability and provide significant energy savings.
另外,整体的比例积分控制器、RFI过滤器,制动斩波器和各种电动机保护功能确保其可靠性,并有效节省能量。
In addition, the integrated proportional-integral controller, RFI filter, and brake chopper and extensive motor-protection functions ensure reliability and provide significant energy savings.
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