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fractional-order-pid-controller
- 分数阶pid控制器、最新参考文献,工业上新型控制器,文献包含控制器的设计、性能分析、工业应用现状、控制器参数整定方法。是目前研究与应用的热点-Fractional pid controller, the latest references, industry new controller, the literature contains the controller design, performance analysis, industrial application status, the
FDA08-2
- Random delay effect minimization on a hardware-in-the-loop networked control system using optimal fractional order PI controllers ⋆
ControlOptimization
- In this paper it is studied the modeling and control of a robotic bird. The results are positive for the design and construction of flying robots and a new generation of airplanes developed to the similarity of flying animals. The development of comp
frft
- 有两个程序一个是关于frft的源程序,一个是应用frft对线性调频信号进行检测的程序,原理是以变换阶数(不同的分数阶域)为变量对观测信号进行分数阶变换,形成信号能量在时频平面上的二维分布,在此平面上按阈值进行峰值点的二维搜索即可检测线性调频信号并估计其参数。-There are two procedures one on frft the source, one application frft linear FM signal detection process, the principle
NonlinearDynamicsofDuffing
- 采用4阶龙格库塔法和10阶连分式欧拉法,数值计算、分析了分数阶阻尼Duffing系统的 动力学特性.利用相图、Poincare截面映射图和分岔图等非线性动力学分析方法研究了阻尼的分数 阶微积分阶数对Duffing系统动力学性能的影响,采用分岔图法研究了外部激励的幅值和频率变 化时分数阶阻尼Duffing系统的动力学行为.分析表明,分数阶阻尼的阶数在0.1~2.0发生变化 时,系统依次进入周期运动、混沌运动、周期运动、混沌运动和周期运动,并且在混沌运动区间中存 在着周期运动窗口
dfrctthesis
- fractional order cosine transform
A-Lyapunov-approach-to-the-stabilility-of-Fractio
- lyapunov approach to cheking stability of fractional order systems help you to know about stability of fractional order systems -lyapunov approach to cheking stability of fractional order systems help you to know about stability of fractional ord
yileifeixianxingfenshujie
- 一类非常值得学习的分数阶系统的文件,主要用于分数阶混沌系统的研究和同步-A class of very worth learning fractional system files, mainly for the fractional order chaotic systems research and synchronization
different-fractional-order-chaotic
- 一种异结构分数阶混沌系统投影同步的新方法_黄丽莲-A heterologous structural projective synchronization of fractional order chaotic systems new method _ Huang Lilian
chaos
- FRACTIONAL ORDER CODE系统数据模拟程序-fractional order code
06C07_01657207_fo-pid
- In this paper, a fractional order PID controller is investigated for a position servomechanism control system considering actuator saturation and the shaft torsional flexibility. For actually implementation, we introduced a modified approximation m
05C21_460
- A Fractional Order PID Tuning Algorithm for A Class of Fractional Order Plants
fractional-order
- 分数阶混沌系统时域数值仿真及其可靠性分析 .caj :通过分析系统不动点的稳定性,得到分数阶微分系统存在混沌的解析条件。以分数阶统一混沌系统为例,通过时域数值仿真 实验,发现时域近似产生的仿真误差会产生对分数阶微分系统是否存在混沌的错误判断,并且误差影响会随参数k 的增大而变大。 -The analytical conditions that the fractional-order differential systems remain chaotic are obtained b
FOPID
- Fractional order dynamic model could model various real materials more adequately than integer order ones and provide a more adequate descr iption of many actual dynamical processes. Fractional order controller is naturally suitable for these fractio
FOPID2
- In this paper, the design of fractional-order PID controller is considered in order to minimize certain performance indices such as integral absolute error, integral square error and integral time absolute error. The design-construction leads to a hi
CODES.ZIP
- Consists of fractional calculus, solving linear Fractional Order Differential Equations (FODE), Source code and comparison of various Mittag Leffler functions, Source code and #D representation Fractional Order Grunwald Letnikov Derivative, New Bhale
lu
- 实现分数阶LU系统的绘制以及求解混沌吸引子-Plotting of fractional order systems and solving LU chaotic attractors
Fractional-System
- 主要讲的是分数阶系统辨识和控制器设计,对于刚开始学习分数阶的同学很有 帮助-Mainly about identification and controller design fractional order system, for beginning students learn Fractional helpful
fenshjie1
- 针对多变量分数阶控制系统的稳定性问题,分析了采用了特征值区间法来判别系统稳定性的方法。对状态矩阵与阶数在某一区间内变化的多变量分数阶系统,总结出了稳定性判别的方法与步骤-For the stability of multivariable fractional order control system, the characteristic values were analyzed using interval method to determine the stability of the s
无刷直流电机分数阶PI预测函数控制研究
- 无刷直流电机dsp 分数阶pid预测算法(Based on the analysis the working principle of brushless DC motor and the speed regulating simulation under PI, fractional-order PI (FOPI) and predictive functional control (PFC) strategies, two improved control strategies are pr