Description: 该文提出调整系统控制量的模糊PID控制器的计算机设计与仿真。以碱回收炉的水位控制为例具体论述调整系统控制量的模糊PID控制器的设计、2-D控制表的建立、以及控制器计算机设计与仿真的实现。借助MATLAB模糊控制工具箱和SIMULINK仿真工具进行的仿真实验表明,该控制器既吸收了模糊控制器良好的动态性能,又克服了模糊控制器静态性能较差的缺点。并且为碱回收炉上汽包水位控制提出了一种新的尝试。该控制器结构简单、参数调整方便、快捷。-In this paper, adjust the volume of the system control computer fuzzy PID controller design and simulation. To Recovery Boiler water level control system as an example of specific control adjust the volume on fuzzy PID controller design ,2-D control of table creation, as well as controller design and simulation of computer implementations. Fuzzy Control Toolbox with MATLAB and SIMULINK simulation tools to carry out the simulation experiments show that the controller not only absorbed a fuzzy controller good dynamic performance, but also overcome the poor performance of the fuzzy controller static shortcomings. SAIC for the Recovery Boiler water level control package presents a new attempt. The controller structure is simple and adjust parameters conveniently and quickly. Platform: |
Size: 70656 |
Author:叶正涛 |
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Description: 通过MATLAB仿真工具箱simulink实现模糊控制原理下的PID智能控制器-Toolbox through MATLAB simulation simulink realize fuzzy PID control theory under the intelligent controller Platform: |
Size: 7168 |
Author:Michell |
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Description: 在分析无刷直流电机(BLDC)数学模型的基础上,提出了一种无刷直流电机控制系统仿
真建模的新方法。在Matlab/Simulink环境下,把独立的功能模块和S函数相结合,构建了无刷直流
电机系统的仿真模型。系统采用双闭环控制:速度环采用离散PID控制,根据滞环电流跟踪型PWM
逆变器原理实现电流控制。仿真和试验结果与理论分析一致,验证了该方法的合理性和有效性。
此方法也适用于验证其他控制算法的合理性,为实际电机控制系统的设计和调试提供了新的思路。
-Based on the mathematical model of the Brushless DC motor(BLDC),a novel method for modeling and
simulation of BLDC control system was proposed.In Matlab/Simulink,by the combination of the isolated functional blocks
and S-functions,the model of BLDC could be established.In the double loop of control system,a discrete PID controller was
adopted in the speed loop and a current controller was completed in the current loop on the principle of hysteresis current
track PWM inverter.The reasonability and validity were testified by the coincidence of the simulation and experimentation
results and theory analysis.This novel method is also suitable for verifying the reasonability of other control algorithms and
offers a new thinking for designing and debugging actual motors.
Platform: |
Size: 587776 |
Author:zhanghejun |
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Description: :介绍了一种利用DSP控制的大容量蓄电池自动充电装置的设计。采用高频开关电源技术,给出了基于数
字信号处理器TMS320LF2407的充电装置控制系统的软、硬件设计。借助Matlab中的Simulink仿真工具,采用
在线模糊自整定技术对充电装置控制系统进行仿真,并将仿真结果应用于DSP控制器中,实现对Fuzzy-PID控
制的Kp、Ki、Kd参数的在线自整定,使充电方式能较好的模拟最佳充电曲线,达到理想效果。理论分析和试验都
表明,该充电装置能够有效地提高蓄电池的充电效率,加快充电速度。
-:An automatic charging equipment with high-capacity storage battery was designed through being controlled by
DSP.Using the HF SPS(High-Frequency Switching Power Supply),the software/hardware implementation of a
TMS320LF2407 based controller system was introduced.With the tool-box of Simulink in Matlab,it adopts Fuzzy-PID
methods to simulate the controlling system of charging system.Then the result of simulation will be used in DSP controller
to realize self-control of the the parameters of Kp、Ki、Kd in PID controller so as to make the way of battery charging could
simulate the excellent curve and reach ideal results. Platform: |
Size: 314368 |
Author:mabeibei |
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Description: PID Controller Design and Tuning with MATLAB and Simulink-This demo file shows new capabilities for PID Controller design and tuning in MATLAB and Simullink Platform: |
Size: 266240 |
Author:namedd |
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Description: simulink 仿真pid控制器 simulink pid controller which is simple to use-simulink pid controller which is simple to use Platform: |
Size: 6144 |
Author:潘一帆 |
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Description: 用MATLAB中的simulink pid控制器实现汽车abs系统实时仿真-Implementation of real time simulation of automobile ABS system using Simulink PID controller in MATLAB Platform: |
Size: 10240 |
Author:付 |
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Description: 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 model for analysis and modeling approach using experimental strike transfer function model. Secondly, the design of PID controller, simulation model dual tank water control in Matlab/Simulink environment, PID control algorithm simulation. Simulation results show that the design feasibility and correctness of the algorithm. Finally completed the hardware and software design of PLC-based dual-tank water level control, the preparation of the PLC ladder to achieve the tank level PID control. Platform: |
Size: 1032192 |
Author:liubinbin |
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Description: The paper deals with a controller design for the nonlinear processes using genetic
algorithm and neural model. The aim was to improve the control performance using
genetic algorithm for optimal PID controller tuning. The plant model has been
identified via an artificial neural network from measured data. The genetic algorithm
represents an optimisation procedure, where the cost function to be minimized
comprises the closed-loop simulation of the control process and a selected
performance index evaluation. Using this approach the parameters of the PID
controller were optimised in order to become the required behaviour of the control
process. Testing of quality control process was realized in simulation environment of
Matlab Simulink on selected types of nonlinear dynamic processes.-The paper deals with a controller design for the nonlinear processes using genetic
algorithm and neural model. The aim was to improve the control performance using
genetic algorithm for optimal PID controller tuning. The plant model has been
identified via an artificial neural network from measured data. The genetic algorithm
represents an optimisation procedure, where the cost function to be minimized
comprises the closed-loop simulation of the control process and a selected
performance index evaluation. Using this approach the parameters of the PID
controller were optimised in order to become the required behaviour of the control
process. Testing of quality control process was realized in simulation environment of
Matlab Simulink on selected types of nonlinear dynamic processes.
Platform: |
Size: 135168 |
Author:samir |
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Description: A proportional-integral-derivative controller (PID controller) is a control loop feedback mechanism (controller) widely used in industrial control systems. A PID controller calculates an error value as the difference between a measured process variable and a desired setpoint Platform: |
Size: 355328 |
Author:ali |
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Description: A proportional-integral-derivative controller (PID controller) is a control loop feedback mechanism (controller) widely used in industrial control systems. A PID controller calculates an error value as the difference between a measured process variable and a desired setpoint Platform: |
Size: 175104 |
Author:ali |
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Description: Implementation of Fuzzy Gain Scheduling for PID Controllers in MATLAB and Simulink
Fuzzy PID Controller in MATLAB and Simulink
An approach to tune the PID controller using Fuzzy Logic, is to use fuzzy gain scheduling, which is proposed by Zhao, in 1993, in this paper. In this post, we are going to share with you, a MATLAB/Simulink implementation of Fuzzy PID Controller, which uses the blocksets of Fuzzy Logic Toolbox in Simulink. Three examples of the reference paper, are implemented as Simulink models. For backward compatibility, the models for use with MATLAB 7.9 are provided, in addition to MATLAB R2015a (version 8.5) models. Platform: |
Size: 316416 |
Author:amardz |
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Description: A switched reluctance motor speed control is shown in a matlab simulink model. The speed is controlled using the PID controller which is tuned via inbuilt function and the input used for the motor is a step signal. The controlled speed is shown in scope which shows the input and output speed. Platform: |
Size: 22280 |
Author:phdabhay |
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