PID参数模糊自整定系统主要由参数可调整PID控制器和模糊控制器两部分组成。
The fuzzy self-tunning PID control system consists of two parts which are parameter adjustable PID system and fuzzy control system.
最后使用UML建立了鲁棒pid控制器参数自整定系统的模型,对其进行了分析、设计和实现。
At last, the UML model of the system of robust PID controller self-adjusting is established, analyzed, designed and implemented.
介绍了基于ADAM5 5 10的PID参数自整定系统的工作原理,硬件结构和软件设计,并给出了模块流程图。
The operational principle, hardware structure and software design of the self-tuning system of PID parameters based on ADAM5510 are introduced. The flowchart of the software modules is also given.
对于更复杂自整定控制器,继电反馈方法可以作为一种理想并且适用的预整定器,在系统运行的初始阶段调节系统参数。
The recommended algorithm can also be employed as some kind of pre-tuning controller for high performance control system at the starting point in their complicated auto-tuning process.
对自并励静止励磁系统发电机空载阶跃指标提出整定范围。
The setting range of no load voltage step response index for self excited shunt excitation system is put forward.
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.
在此基础上,利用系统辩识获得的系统传递函数的系统,设计了一种自整定pid控制方法。
The means of auto tuning PID with the system parameters identification on line is obtained, and a kind of controlling method of auto tuning PID is designed.
从仿真结果来看,模糊pid自整定算法极大的改善了系统的控制性能,使被控对象有更好的动、静态性能。
According to the result of simulation, we can find the fuzzy PID algorithm has improved the control effectiveness and dynamic and static performance of system significantly.
根据加载系统的特点,引入了参数自整定的模糊pid控制算法。
According to the character of load system, the fuzzy PID of self-adjusted parameter is inducted.
本文针对排料系统设计了一种可在线自整定PID参数的模糊pid控制器。
A fuzzy PID controller for discharging system which could tune PID parameters online is designed.
本文针对水厂混凝投药系统PID控制的局限性,提出基于模糊自整定PID混凝投药控制结构。
As the limitation of the coagulant dosing system in water plant, the paper introduced a scheme based on the fuzzy tuning PID parameters.
仿真结果表明,模糊自整定PID控制器比常规pid控制器有更好的控制效果,大大改善了系统的动态和静态性能。
The results of simulation show that fuzzy self-tuning PID controller is better than regular PID controller, the dynamic and static properties of the control system are improved.
给出了大功率不间断电源(ups)的充电电路系统结构,设计出模糊自整定PID控制器。
This paper presents the basic structure of High-power UPS charging system and describes the design of a self-tuning PID controller.
隧道通风过程可近似认为是一个一阶时滞系统,系统采用自整定模糊pid对隧道管网的风压进行实时控制。
Tunnel ventilation process is approximately a system of time lag of first order, real time control of wind pressure in tunnel pipe is adopted self-tuning fuzzy PID.
由于供水过程可近似认为是一个一阶时滞系统,系统采用了自整定模糊pid对管网的压力进行实时控制。
The water supply process is approximately a system of time lag of first order, real time control of pressure in pipe is adopted self-tuning fuzzy PID.
为验证系统的控制效果,本文对积分分离pid参数自整定算法和模糊控制算法进行了仿真和试验。
Integral separation PID control algorithm with self-adjusting parameter and fuzzy control algorithm have been simulated and experimented in the article to test their control effect.
对温箱温度控制系统采用PID算法;对柴油机冷却水温度控制系统采用继电自整定PID控制算法。
Temperature-box control system USES PID algorithm and relay auto-tuning PID algorithm is introduced to diesel engine cooling water temperature control system.
为提高控制系统的鲁棒性,增强干扰抑制能力,提出了适用于气压伺服系统的自抗扰控制器方案,并讨论了控制参数的整定。
To improve the robustness of control systems, a nonlinear auto-disturbance rejection control (ADRC) technique for pneumatic servo systems was developed and a parameter setting method was given.
在焊缝跟踪中采用参数自整定模糊控制可以明显改善系统的性能。
The experiment proved that system' s performance could be improved by the appliance of parameters self-adjusting fuzzy controller.
对基于模糊pid参数自整定的温度系统控制方法进行了研究。
A study is made on control of temperature system based on Fuzzy self-tuning PID parameters.
该系统使用PC机作为控制平台,采用自整定PID算法,调节输出pwm波的占空比来控制半导体制冷器的输出功率。
The system is made up of semiconductor cooler (TEC, thermal electrical cooler) which is controlled by a PC with PID arithmetic. And use the duty ratio of PWM to control the output power of TEC.
为了提高机载光电跟踪伺服控制系统的控制性能,提出了一种模糊自整定PID控制算法。
In order to improve the control performance of airborne electro-optical pointing and tracking systems, a new algorithm, fuzzy self-adjusting PID control, is presented.
进行交流伺服系统控制参数自整定策略研究,是提高伺服系统运行效率和性能的迫切需要,具有重要意义。
Therefore, it is urgent and significant to study the self-tuning strategy of AC servo system control parameters to improve the efficiency and performance of servo systems.
本文同时还对系统的软件设计进行了介绍,给出了控制主程序的流程,以及所设计的模糊自整定PID控制算法的实现流程。
In this paper, the software of the control system is also introduced. The process of main program and the fuzzy self-tuning PID control algorithm are given.
仿真结果表明,较之常规模糊控制器,采用参数自整定的模糊控制器能使系统获得更快的动态响应速度和更高的定位精度。
Simulation results show that the fuzzy controller with self-adjusting parameters makes the system have rapid dynamic response speed and high positioning accuracy.
建立模糊控制系统,确定模糊自整定PID参数控制模型,使控制达到最佳效果。
And we can establish the fuzzy control system, confirm PID parameter control model, and enable the control to achieve the desired effect.
应用AL808智能仪表,采用先进的专家智能PID自整定技术,自动整定加热系统的PID参数。 模块输出为可控硅过零触发,输人为热电偶信号。
Two AL808 IRs which can automatically tune PID parameters of the system with expert intelligence, thyristors as the output and thermocouples as the input.
应用AL808智能仪表,采用先进的专家智能PID自整定技术,自动整定加热系统的PID参数。 模块输出为可控硅过零触发,输人为热电偶信号。
Two AL808 IRs which can automatically tune PID parameters of the system with expert intelligence, thyristors as the output and thermocouples as the input.
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