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chap4_7b
- 模糊自整定PID控制系统simulink仿真实例第二部分-Fuzzy self-tuning PID control system simulink simulation instance
fuzzy_pid
- 模糊自适应PID 更改模糊规则、隶属函数、系统传递函数即可获得不同系统的模糊自适应PID控制算法-Fuzzy adaptive PID change the fuzzy rules, membership function, the system transfer function can be obtained fuzzy adaptive PID control algorithm of the system
1000-3428(2008)22-0231-03
- 针对传统的PID 控制器参数固定而导致在控制中效果差的问题,提出一种基于模糊RBF 神经网络智能PID 控制器的设计方法。 该方法结合了模糊控制的推理能力强与神经网络学习能力强的特点,将模糊控制与RBF 神经网络相结合以在线调整PID 控制器参数,整 定出一组适合于控制对象的kp. ki. kd 参数。将算法运用到电机控制系统的PID 参数寻优中,仿真结果表明基于此算法设计的PID 控制器改善了电机控制系统的动态性能和稳定性。-Fixed for the traditional PID
RLS_NEW
- In this study, a design methodology is introduced that blends the classical PID and the fuzzy controllers in an intelligent way and thus a new intelligent hybrid controller has been achieved. Basically, in this design methodology, the classical PID a
mohukongzhiyupid
- 模糊控制与传统PID控制进行对比分析,并用simulink搭建仿真平台-Fuzzy control and traditional PID control were analyzed, and Simulink to build simulation platform
2005_FUZZY05(EmbeddedType2FLC)
- Marine and Traction propulsion systems operate in highly dynamic and uncertain control environments. The current speed controllers for marine/traction propulsion systems are based on PID and type-1 Fuzzy Logic Controllers (FLCs) which ca
GE2310721081
- PID Controller Based Chopper-Fed DC Motor Drive Using Fuzzy Logic
EC1
- 针对一个特殊的控制系统,分别采用PID和模糊控制(FC),编制了代码程序来对它们进行优化。通过simlink仿真后效果较好。-For a special control system, using PID and fuzzy control (FC), the preparation of the code to optimize them. After by simlink simulation is better.
cheng-xu
- 针对常规PID控制不具有自适应能力,对于时变、非线性系统控制效果不佳。提出了将模糊技术与PID控制相结合的控制方式,设计模糊控制器。-Conventional PID control with adaptive capabilities, time-varying, nonlinear system control ineffective. Fuzzy and PID control combined control mode fuzzy controller design.
cheng-xu
- 针对常规PID控制不具有自适应能力,对于时变、非线性系统控制效果不佳。提出了将模糊技术与PID控制相结合的控制方式,设计模糊控制器。-Conventional PID control with adaptive capabilities, time-varying, nonlinear system control ineffective. Fuzzy and PID control combined control mode fuzzy controller design.
fz_PID
- 运用模糊控制技术进行PID控制器的校正取得了良好的控制效果-The use of fuzzy control technology for the calibration of the PID controller to obtain good control effect
fuzzycontrol
- PID控制与模糊控制对比,使用simulink模糊控制工具箱,采用一般的和TS的模糊关系分别进行控制-Compare with PID control and fuzzy control, using the Simulink fuzzy control toolbox
003
- 典型二阶系统的模糊控制与传统PID控制的性能比较-Fuzzy control algorithm instance
pidPfuzzy-control
- pid模糊算法,内有详细介绍,应用灵活方便-pid fuzzy algorithm, with detailed descr iptions, application flexibility
free
- 本系统采用msp430f5438单片机为主控芯片,L298N驱动级来驱动步进电机,利用按键模块实现模式的切换,同时通过精密电位器的测量,实现对步进电机的控制。在软件中,将自由摆的角度与步进电机的步进数之间建立一个对应关系,采用模糊控制算法和PID控制算法,使步进电机得到更加精确的控制。-The system uses msp430f5438 microcontroller as the master chip, L298N driver stage to drive the stepper mo
GTC1--speed125
- 基于模糊自适应的PID控制的磁导航小车源代码-Fuzzy adaptive PID control of the source code based on the magnetic navigation.
09785643
- 基于神经网络的模糊PID料筒温度的控制器 -Fuzzy Barrel Temperature PID Controller Based on Neural Network
7856453
- 一种新的PID型模糊神经网络控制器的研究, 带Smith预估器的改进遗传算法 -A New PID-type Fuzzy Neural Network Controller based on Genetic Algorithm with improved Smith Predictor
slcppid
- 倒立摆和PID控制一起使用时对于倒立摆的仿真,可以有效地改善对于倒立摆的模糊控制作用-For the inverted pendulum simulation, can effectively improve the role of fuzzy control for inverted pendulum pendulum and PID control when used in conjunction
fuzzpid
- PID模糊控制程序,附带simulink仿真图形-PID fuzzy control procedures