C-C法计算时间延迟和嵌入维数我要分享

C - C method for calculating the delay time and embedding dimension

C-C法 时间延迟 嵌入维数 相空间重构图 Lorenz 分岔图 C-C法嵌入维数

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代码分类: Simulink仿真

开发平台: matlab

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代码描述

中文说明:

文件名:C-C法计算时间延迟和嵌入维数

C-C法计算出相空间重构的时间延迟和嵌入维数 文件名:dingyi_lyapunov

采用定义法计算lyapunov指数 文件名:fencha

求lorenz系统分岔图(采用区域最大值法) 文件名:m_test

求解嵌入维数m 文件名:pinghengdian

求lorenz系统在某一系数下的平衡点,并求出特征值 文件名:poincare

求lorenz系统的poincare截面 文件名:PSD

求lorenz系统的功率谱 文件名:tau_test

相空间重构时间延迟求解 文件名:time_test

lorenz系统时域分析,相平面图 文件名:wolf_lyapunov

wolf法求解lyapunov指数(需要配合求解m和嵌入时间延迟t使用) 文件名:xiao_shuju

小数据量法求解lyapunov指数 文件名:zheng_jiao

正交法求lyapunov指数谱
(choastic time series analysis)


English Description:

File name: C-C method to calculate time delay and embedding dimension
The time delay and embedding dimension of phase space reconstruction are calculated by C-C method_ lyapunov
Using definition method to calculate Lyapunov exponent file name: fencha
Find the Lorenz system bifurcation diagram (using the region maximum method) file name: M_ test
Solving embedding dimension m file name: pinghengdian
Find the equilibrium point of Lorenz system under a certain coefficient, and get the eigenvalue file name: Poincare
Find the Poincare section file name of Lorenz system: PSD
Find the power spectrum file name of Lorenz system: Tau_ test
Phase space reconstruction time delay solution file name: time_ test
Lorenz system time domain analysis, phase plane diagram file name: wolf_ lyapunov
Solving Lyapunov exponent by Wolf method (need to be used with solving m and embedding time delay T) file name: Xiao_ shuju
Solving Lyapunov exponent by small data method_ jiao
Solving Lyapunov exponent spectrum by orthogonal method


代码预览

C-C计算延迟时间和嵌入维数

.........................\correlation_integral.m

.........................\C_CMethod.m

.........................\disjoint.m

.........................\heaviside.m

.........................\lorenz_phase.m

.........................\lorenz_sim.mdl

.........................\m文件介绍.txt

.........................\reconstitution.m

.........................\untitled.fig

dingyi_lyapunov

...............\dingyi_ly.m

...............\dingyi_lya.m

...............\fix_r_lya.m

...............\jacobian_jie.m

...............\lorenz_sim.mdl

...............\lya_pu.fig

...............\lya_pu_new.fig

...............\m文件介绍.txt

fen_cha

.......\fen_cha.fig

.......\fen_cha.m

.......\getmax.m

.......\lorenz_shiyu.m

.......\m文件介绍.txt

.......\分岔.doc

m_test

......\cao_fangfa

......\..........\cao.m

......\..........\data.m

......\..........\lorenz_phase.m

......\..........\lorenz_sim.mdl

......\..........\m文件介绍.txt

......\..........\reconstitution.m

......\..........\zui_lin.m

......\jihe_bubian.m

......\m文件介绍.txt

pinghengdian

............\F.m

............\m文件介绍.txt

............\pinghengdian.asv

............\pinghengdian.m

poincare

........\lorenz_sim.mdl

........\m文件介绍.txt

........\poincare.fig

........\poincare_draw.m

........\poincare_yinshe.fig

PSD

...\lorenz_phase.m

...\lorenz_sim.mdl

...\m文件介绍.txt

tau_test

........\m文件介绍.txt

........\pinjun_weiyi

........\............\lorenz_phase.m

........\............\lorenz_sim.mdl

........\............\m文件介绍.txt

........\............\pinjun_weiyi.asv

........\............\pinjun_weiyi.m

........\............\reconstitution.m

........\............\S_weiyi.fig

........\............\Untitled2.m

........\zi_xiangguan

........\............\lorenz_phase.m

........\............\lorenz_sim.mdl

........\............\m文件介绍.txt

........\............\zi_xiangguan.m

time_test

.........\lorenz_phase.asv

.........\lorenz_phase.m

.........\lorenz_sim.mdl

.........\m文件介绍.txt

.........\three_phase.fig

.........\x_t.fig

.........\yx.fig

.........\y_t.fig

.........\zx.fig

.........\zy.fig

.........\z_t.fig

wolf_lyapunov

.............\correlation_integral.m

.............\fix_r_lya.m

.............\G_P.m

.............\lorenz_sim.mdl

.............\lyapunov.fig

.............\lyapunov.m

.............\lyapunov_wolf.asv

.............\lyapunov_wolf.m

.............\m文件介绍.txt

.............\PhaSpaRecon.m

.............\reconstitution.m

.............\test_wolf.asv

.............\test_wolf.m

.............\wolf.fig

xiaoshuju_lyapunov

..................\fix_r_lya.m

..................\lorenz_shiyu.m

..................\lorenz_sim.mdl

..................\lya_data.m