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ZN_PI_PID
- Ziegler nicholas tuning of PID controller.
P2013060206002
- DESIGN AND OPTIMIZATION OF PID CONTROLLER USING GENETIC ALGORITHM
200709_14
- Determination of the PID Controller Parameters by Modified Genetic Algorithm for Improved Performance
FuzzyPIDTuning
- tuned, conventional PID controller, replace it with an equivalent linear fuzzy controller,
water-level-control-of-Double-tank-
- 双容水箱的液位控制问题。首先对被控对象的模型进行分析,并采用实验建模法求取模型的传递函数。其次,设计PID控制器,在Matlab/Simulink环境下建立双容水箱控制的仿真模型,对PID控制算法进行仿真研究。通过仿真实验,证明该设计方法可行性和该算法的正确性。最后完成了基于PLC的双容水箱液位控制的软硬件设计,编写了PLC梯形图实现了水箱液位的PID控制。-Dual tank water level control problems. First, the controlled object
pid2
- matlab code pid controller in software
sim1
- matlab code pid controller in software IN BOOK 2
sim_FF
- matlab code pid controller in software MFILE EDIT 2
gsa_FF
- matlab code pid controller in software IN MFILE 2-matlab code pid controller in software IN MFILE 200
fig1-(1)
- matlab code pid controller in software IN FIGURE
FIG1
- matlab code pid controller in software BOOK SOFT
untitled
- matlab code pid controller in software SOFTWARE BOOKS
PID_Simulink
- 描述了PID控制规律及控制器实现及用Simulink建立PID控制器及构建系统模型与仿真方法。-Describes the PID control law and controller implementation and the establishment of a PID controller and build the system model and simulation method using Simulink.
FPGA_PID
- 本文讲的是基于FPGA的模糊PID控制器实现,详细介绍了Verilog HDL怎样用FPGA实现PID控制器-This article tells of fuzzy PID controller based on FPGA implementation details of how to use FPGA Verilog HDL realize the PID controller
01033125
- Fuzzy PID Controller to Control the pH Neutralization Process Nio Tiong Ghee , Sivakumar Kumaresan and Liau Chung Fan School ofEngineering andlnformation Technology Electrical and Electronic Engineering Department Universiti Malaysia Sabah
PIDsuanfa
- 在过程控制中,按偏差的比例(P)、积分(I)和微分(D)进行控制的PID控制器(亦称PID调节器)是应用最为广泛的一种自动控制器。它具有原理简单,易于实现,适用面广,控制参数相互独立,参数的选定比较简单等优点;而且在理论上可以证明,对于过程控制的典型对象-In the process control, according to the proportion of deviation (P), integral (I) and differential (D) control of PID con
06675643
- 提高电源的动态响应 非线性和复杂的系统是一个转换器 电力电子的有趣的挑战。摘要介绍了 设计和实现数字PID控制器使用 混沌粒子群优化(复)提振 转换器,提出了自动调优转换器的方法 最优启动响应。当系统启动时,处理器 单元分析了开环启动响应转炉和 在一些迭代使用复准备最佳反应 算法。使用逻辑映射混沌映射序列 增加它的收敛速度和精度。模拟 和实现结果显示提出的效率 方法-Improving dynamic response of DC-DC converters whi
1_speedcontrolpid
- speed control of dc moter using pid controller
pid1
- pid增量式它具有原理简单,易于实现,适用面广,控制参数相互独立,参数的选定比较简单等优点;-pidPID control of the smart car is the classic algorithm in process control, according to the percentage of deviation (P), Integral (I) and differential (D) control of PID controller (also known as PID r
Design-of-a-Nonlinear-PID-Neural-Trajectory-Track
- Design of a Nonlinear PID Neural Trajectory Tracking Controller for Mobile Robot based on Optimization Algorithm