搜索资源列表
PID_Controller_Matlab_Code
- this matlab pid tuning code-this is matlab pid tuning code
CHAP4_3
- 基于BP神经网络的PID参数自整定的研究 是M文件,控制效果非常好-Based on BP Neural Network PID parameter self-tuning of the Study are M documents, control has very good results
inmin01
- 使用最小积分整定计算PID系数的例程,根据给出的传递函数,计算最佳的调整系数-Points using the least-tuning PID coefficient calculation routine, give the transfer function based on calculating the optimal adjustment factor
chap9
- 先进PIDmatlab仿真PID参数整定参数程序-PIDmatlab advanced simulation parameters of PID parameter tuning process
bppid
- MATLAB平台下的基于人工神经网络的非线性控制系统PID参数整定代码,能实现在线调节功能。-MATLAB platform artificial neural network-based nonlinear control system PID parameter tuning code, to achieve regulatory function online.
JLinkage
- J-linkage 算法,可以用于多体拟合的一种策略,优于Multi-ransac-This paper tackles the problem of fitting multiple instances of a model to data corrupted by noise and outliers. The proposed solution is based on random sampling and conceptual data representation. Each poin
chap5_3
- 基于二进制编码遗传算法和实数编码遗传算法的PID整定-Based on the binary-coded genetic algorithms and real-coded genetic algorithm tuning of PID
ResearchandImplicaofAutochargingEquipmentBasedonDS
- :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
RBF
- RBF整定PID程序,对于工程应用比较的使用-PID tuning procedures RBF
chap6_3
- 采用DRNN神经网络整定的PID解耦程序,非常实用的哦。-DRNN using neural network-tuning PID decoupling of the process, oh, very practical.
chap6_5
- 基于DRNN神经网络整定的PID控制<先进PID控制与matlab仿真>第六章-DRNN-based neural network tuning of PID control(advanced PID control simulation matlab) Chapter VI
BP
- 用matlab实现的BP神经自校正系统模型-Using matlab to achieve self-tuning of the BP neural system model
SLOO-MPS-SVM
- Multiple Parameter Selection for LS-SVM using Smooth Leave-one-out Error 还有文章和源码,一起研究学习!-Using SLOO-MPS for tuning multiple parameters for LS-SVM to overcome the parameter fixing problem.
AdaptivePIDcontrolbasedonRBFIdentification
- RBF神经网络整定的PID控制,能以任意精度逼近任意连续函数-RBF neural network-tuning of PID control to arbitrary accuracy any continuous function approaching
SingleLinkInvertedPendulumControl
- 吊车双摆的控制,普通的PID控制难以实现-Double pendulum crane control, ordinary PID control difficult to achieve
improvingLZW
- LZW was originally designed for implementation by special hardware, but it turned out to be highly suitable for efficient software implementations too. An enhanced variant is available on UNIX systems and many other systems as the compress comman
c6mdpid1
- 参数自整定PlD模糊控制仿真, 参数自整定PlD模糊控制仿真-Parameter self-tuning fuzzy control PlD simulation, parameter self-tuning fuzzy control PlD simulation, parameter self-tuning fuzzy control simulation PlD
chap4_7f2
- 基于神经网络的PID参数整定! 可以做为学习之用!-Based on neural network PID parameter tuning! Can be used as learning!
bellmanu
- Manual tuning of a generalized bell membership funciton.
fuzzy
- 模糊控制的开发方法,着重描述参数自调整模糊控制的方法,举例说明了直流脉宽调速系统的应用-The development of fuzzy control methods, focusing on descr iptions parameter self-tuning fuzzy control methods, for example, illustrates the application of DC PWM speed control system