This paper presents a way to design the intelligent temperature measurement and control system based on fuzzy self-tuning PID control algorithm.
给出了一种基于模糊自整定PID算法的智能温度测控系统的设计方法。
According to the characteristics of combustion control system, we select the fuzzy self-tuning PID control algorithm to achieve the control process.
针对燃烧控制系统的特点,选择模糊自整定PID控制算法实现控制过程。
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.
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。
Then, by researching on fuzzy control technology, the paper designs ordinary fuzzy controller, fuzzy-PID dual-mode controller and fuzzy self-tuning PID controller.
然后,采用了模糊控制技术,分别设计了普通模糊控制器、模糊-PID双模控制器及模糊自整定PID控制器。
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.
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。
To improve the response rate of process control, a method for hardware implementation of fuzzy self-tuning PID controller based on Field Programmable Analog Array (FPAA) was proposed.
为提高过程控制的响应速度,提出了一种基于现场可编程模拟阵列(FPAA)模糊自整定PID控制器的硬件实现方法。
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.
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。
A study is made on control of temperature system based on Fuzzy self-tuning PID parameters.
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。
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.
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。
Finally, the result of experiment shows that the algorithm based on self-tuning fuzzy PID is effective for electronic throttle control.
最后,试验结果表明自整定模糊pid控制算法对于电子节气门控制具有较好的效果。
For the characters of the beer fermentation temperature control are the large delay and nonlinear and so on, a hybrid parameters self-tuning fuzzy PID controller is presented.
针对啤酒发酵温度过程控制具有大时滞、非线性等特点,设计了混合参数自调整模糊pid控制器。
A new scheme for fuzzy self-tuning PID excitation control technique is proposed by combining the fuzzy control theory with the normal PID excitation controller.
结合模糊控制理论和常规pid励磁控制器,提出了模糊自调整PID励磁控制技术。
Second, the control algorithm of self-tuning fuzzy PID was developed to realize high precision control on piezoelectric actuators.
利用模糊自整定PID控制算法对压电陶瓷驱动器进行了闭环控制,提高了驱动器的输出位移精度;
Second, the control algorithm of self-tuning fuzzy PID was developed to realize high precision control on piezoelectric actuators.
利用模糊自整定PID控制算法对压电陶瓷驱动器进行了闭环控制,提高了驱动器的输出位移精度;
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