文中所提的PID模糊融合控制即是在本控制器上进行的实验研究。
The PID fuzzy fusion control in this thesis did experimental research on the controller.
斜坡根据密度跟踪误差和误差变化情况,通过模糊逻辑对控制器参数进行调整,确定了测量速度。
The ramp metering rate is determined by the PID controller whose parameters are tuned by fuzzy logic according to the density tracking error and error variation.
摘要:针对高速公路交通系统的非线性、时变特性,设计了一种模糊自适应控制器,并将其应用于高速公路匝道控制系统。
Abstract: Aiming at the nonlinear and time-varying characteristics of freeway traffic system, a fuzzy self-adaptive PID controller is designed and applied to freeway ramp metering in this paper.
本论文设计了一种基于模糊控制的PID参数自整定控制器。
This paper designed a kind of PID parameters self-tuning controller based upon blur control.
基于该模型,并结合非线性反馈理论,一个模糊的控制器,控制器,然后设计。
Based on the model and in conjunction with nonlinear feedback theory, a fuzzy-PID ramp controller is then designed.
该控制器通过模糊推理实现PID控制器参数的在线调整。
The controller achieves the adaptation of normal PID controller parameters on line by fuzzy inferences.
比常规的PID控制器或模糊控制器,可以达到更好的控制效果。
Compared to the normal PID controller or the fuzzy controller, the finer control result was attained.
将模糊控制与常规pid控制相结合,根据不同的误差、误差变化率对PID的参数进行在线自动调整,这就是PID参数自整定模糊控制器。
Combine blur control with general PID control, on line self-adjusting PID parameters according to different error and error variety-rate, which is called PID parameters self-tuning blur controller.
以提高系统精度为目的,简单实用为原则,设计了模糊pid控制器。
Take raising the system accuracy as the purpose, simple practical as a principle and designed the fuzzy controller of PID.
文章应用模糊控制技术,设计一种二输入三输出自适应模糊pid控制器,对锅炉水位进行控制。
Fuzzy control technology was applied to design a two-input and three-output self - (adapting) fuzzy PID controller to control the water level of boilers.
以碱回收炉的水位控制为例具体论述调整系统控制量的模糊pid控制器的设计、2- D控制表的建立、以及控制器计算机设计与仿真的实现。
It describes the fuzzy PID-type controller design of the alkali boiler water level, the build of 2-d control table, the realization of the computer design and simulation of the controller.
提出了一种模糊自整定PID参数控制器的设计方法。
The design of PID parameter controller based on fuzzy self tuning is introduced.
用模糊控制器代替VVVF矢量控制系统的PID转矩调节器和PID磁链调节器。
The fuzzy controllers were used to replace PID torque adjustor and PID flux adjustor of VVVF vector control system.
该方法集成了常用PID和模糊pid控制方式的优势并弥补了各自的不足,模糊切换方式实现了二种控制器之间的平滑切换。
It integrates the advantages both of general PID controller and fuzzy PID controller, but eliminates their disadvantages so as to realize smooth switching between the two controllers.
针对数控机床进给系统特点及其性能要求提出了一种参数自整定模糊pid控制器,利用模糊推理的方法实现对PID参数的在线自动调整。
Based on the feature of the nc system and its performance demands, this paper brings forward a self-adaptive fuzzy PID controller to realize PID parameters self-adaptive online.
提出了一种复合型模糊智能PID控制器的改进方案。
The improvement project for a compound fuzzy intellectual PID controller is presented.
因此,结合传统PID控制器的优点,同时,考虑到模糊控制实现的特点,提出了模糊pid控制器的设计思想。
So, this paper combines the advantage of traditional PID controller, in consideration of characteristics of realizing fuzzy control and puts forward the thoughts of the fuzzy PID controller.
模糊pid控制器调试的成功,可作为拓展其他相关研究和实验的有利参考。
The success in debugging the fuzzy PID controller can provide favorable reference in interrelated research and experiment.
最后利用模糊PID控制器与传统PID控制器的联系,进一步推算出符合稳定性要求的模糊PID控制器设计规则。
The stable design rules of the fuzzy PID controller were obtained based on its relationship with the traditional PID controller.
对温度用模糊PID控制,以温度偏差和温度偏差变化为输入,燃料流量为输出,这个模糊控制器能满足控制要求。
The fuzzy-PID control used in temperature control, with temperature departures and the changes and as its input and fuel flow as output, could satisfy the control demand.
利用模糊控制在线自适应调整PID控制器的参数,从而使系统的静态和动态性能指标较为理想。
Fuzzy control is used to adjust the parameters of PID control on-line, accordingly it can make static and dynamic performance index comparatively ideal.
研究的主要目标是设计了一种基于模糊理论的模糊参数自整定PID控制器。
The essential target of this research is the design of active setting PID controller based on fuzzy theory.
此整定方法有效地把专家经验应用于PID参数调节中,控制器集模糊控制器和PID控制器的优点于一身。
This method efficiently makes use of expert experience in PID parameter tuning, and the controller has the merits of both fuzzy control and PID control.
利用模糊控制器的模糊推理能力来实现PID控制器参数在线调整,以达到优化控制的目的。
By using ability of fuzzy reasoning, realize at-line adjust to PID controller parameter, to achieve optimize control.
利用模糊自适应PID控制器对直流调速系统进行控制,设计了三个自适应模糊控制器分别实时调整PID参数。
Apply fuzzy self-adaptive PID controller to control the DC timing system and design three self-adaptive PID controllers which adjust the PID parameters respectively in real-time way.
该控制器由两部分组成,一部分是常规PID控制器,另一部分是在线模糊推理机构。
The controller contains two parts, one is a conventional PID controller and another is an on-line fuzzy inference mechanism.
该方法通过模糊控制调节PID控制器输出,从而改善系统性能。
The PID control signal was modulated by fuzzy control to improve the system performance.
既具有PID控制器高精度的优点,又具有模糊控制器快速、适应性强的特点,保证了调节系统具有良好的动、稳态特性。
It possess both the precise character of PID controller and the flexible advantage of fuzzy controller, and can guarantee the regulation system has good dynamic and static quality.
通过对模糊控制器和PID调节器原理的分析,将模糊控制和PID控制相结合的PID参数自调整的模糊控制器应用于清蜡车控制系统中。
Though the analysis to PID regulator and fuzzy controller principle, fuzzily-PID controller combined with fuzzy control and PID regulator was applied to the control system of dewaxing.
通过对模糊控制器和PID调节器原理的分析,将模糊控制和PID控制相结合的PID参数自调整的模糊控制器应用于清蜡车控制系统中。
Though the analysis to PID regulator and fuzzy controller principle, fuzzily-PID controller combined with fuzzy control and PID regulator was applied to the control system of dewaxing.
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