This paper deals the robust design for one input fuzzy PID controllers.
主要研究一种模糊pid控制器的鲁棒设计。
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.
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。
Fuzzy PID control system is the combination of fuzzy theory and PID controllers.
模糊pid控制系统就是模糊理论与传统的PID控制器的结合。
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.
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。
PID and Fuzzy controllers are using in the experimentation based on the simulation results of the PID, fuzzy and fuzzy self-tuning PID controllers and the driven method for EEV.
针对电子膨胀阀步进电机驱动方式和本文的仿真结果,应用增量式PID和模糊控制方法进行实验分析。
The simulation results show that the fuzzy self-adaptive PID controller's performance is better than the other two controllers', which provides a foundation for further study and application.
仿真结果表明,模糊自适应PID控制器的性能优于其他两个控制器,为进一步的研究和应用提供了基础。
A spray cooling system is thus set up for simulation in lab to test the step signal from the conventional, integral separated and fuzzy self-adaptive PID controllers and the simulated casting.
因此,设立一个喷雾冷却系统模拟实验室测试的阶跃信号的传统,积分分离模糊自适应PID控制器和模拟铸造。
Directed the feature of traditional PID controller and fuzzy controller in process control, the paper presents a new controller's construction with the advantages of two controllers above mentioned.
本文针对传统PID控制器和模糊控制在过程控制应用中的一些特点,提出结合两者之长的一种新型控制器结构。
The fuzzy controllers were used to replace PID torque adjustor and PID flux adjustor of VVVF vector control system.
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。
Multiple PID, Multiple Sliding mode and Multi-model based fuzzy controllers are introduced to solve the speed, depth, pitch and yaw control problem respectively.
以多模型PID、多模型滑模控制和多模型优化的模糊控制算法解决深度、速度、纵倾和航向控制问题。
The control system can readily be expanded and transplanted. 4 Considering the limitations of PID controllers for AUV-VBS, free-model Sliding mode Fuzzy controller SMFC is proposed.
针对PID控制器存在的局限性,在研究分析非模型滑模控制器的基础上,设计了滑模模糊控制器,并提出了其时间次优解的实现方法。
In order to meet the control requirement of complex system, varies of advanced controllers are designed. Fuzzy PID controller is one of them.
为适应复杂系统的控制要求,人们研制了种类繁多的先进的智能控制器,模糊pid控制器便是其中之一。
In order to meet the control requirement of complex system, varies of advanced controllers are designed. Fuzzy PID controller is one of them.
为适应复杂系统的控制要求,人们研制了种类繁多的先进的智能控制器,模糊pid控制器便是其中之一。
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