资源列表
eulerpro
- 用改进的欧拉方法求解初值问题,其中一阶微分方程未y =f(x,y)-Improved Euler method to solve initial value problems, not an order differential equation y = f (x, y)
r_K
- 用四阶(定步长)龙格--库塔法求解初值问题,其中一阶微分方程未y =f(x,y)-with four bands (fixed step) Runge -- Kutta method to solve initial value problems, not an order differential equation y = f (x, y)
greedyAlgorithm
- 数据挖掘常用的贪婪算法,有详细的讲解和算法举例。-data mining algorithms commonly used greed, and explain in detail the algorithm, for example.
SVM-KMExample
- SVM example. based on SVM realize.-SVM example. Based on SVM realize.
2005532296549
- 一个有关遗传算法的c++类,欢迎大家下载和交流!-a genetic algorithm c + + classes, all are welcome to download and exchange!
yesadmin_com_200511261339590
- 有关遗传算法的一些常用和经典算法!欢迎大家一起交流-the genetic algorithm commonly used and some classical algorithm! You are welcome to join the exchange
top_sort
- 这是我在复习备考软件设计师时,写的一个程序,拓朴排序在很多方面都会very important,so i think it will be useful many new hands,so i decide to upload it -This is my review of the Notes software designer, wrote a procedure Topography ranking in many ways very important city, so i think
CommunicationTool1
- 通信工具箱matlab例程1。包含多个matlab实用例程程序。-a Matlab routines. Includes a number of practical Matlab routines procedures.
Lyapunov_exponents_luzhenbo
- 1、LargestLyapunov_example1.m 程序主文件1,直接运行此文件即可 2、LargestLyapunov_example2.m 程序主文件2,直接运行此文件即可 3、LorenzData.dll 产生 Lorenz 离散数据 4、PhaSpaRecon.m 相空间重构 5、Lyapunov_luzhenbo.dll Lyapunov 计算主函数 6、lyapunov_buffer.dll Lyapunov 计算缓存
Volterrra_luzhenbo4
- 更新部分 1、自适应算法采用参考文献[2]的NLMS算法,收敛速度更快,所需训练次数更少。 2、自适应收敛步长在(0,2)之间存在较优取值,Lorenz序列为0.6。-update an adaptive algorithm reference [2] NLMS algorithm, convergence faster, less the number of required training. 2, adaptive step in the convergence of (0,2)
CorrelationDimension_luzhenbo
- 计算关联维的 Matlab 程序 - (mex 函数,超快) ----------------------------------- 文件夹说明: 1、CorrelationDimension_main.m - 程序主文件 2、LorenzData.dll - 产生Lorenz离散数据 3、normalize_1.m - 数据归一化 4、PhaSpaRecon.m - 相空间重构 5、CorrelationDimension.dll - 计算关联积分函数
ToyFDTD1
- This a very simple Yee algorithm 3D FDTD code in C implementing the free space form of Maxwell s equations on a Cartesian grid. There are no internal materials or geometry. The code as delivered simulates an idealized rectangular waveguide by treatin