-
2DFDTDUPPMLTFSF.m.tar
Two dimensional FDTD with UPML + TFSF
- 2011-08-26 09:06:37下载
- 积分:1
-
gabor
Garbor filter matlab implementation
- 2011-11-08 07:33:13下载
- 积分:1
-
XN
离散时间序列的编写源代码,包含各种常用的离散时间序列,简单实用(Discrete time series of writing source code, including a variety of commonly used discrete time series, simple and practical)
- 2013-10-29 16:10:10下载
- 积分:1
-
moving-robot
基于灰色关联理论的移动机械人故障诊断方法研究(Based on Grey Relational Theory mobile robot fault diagnosis method)
- 2013-11-03 13:09:11下载
- 积分:1
-
fminco
fminco is a function
- 2012-01-11 21:59:54下载
- 积分:1
-
Lecture_CS_LWS_Final-Matlab
陆吾生教授短期课程“压缩感知方法及其在稀疏信号和图像处理中的应用”资料,使用的源码,有参考价值(Professor Lu Wusheng Short Course " compressed sensing method and the sparse signal and image processing applications," the source data, the use of a reference value)
- 2014-02-14 10:40:22下载
- 积分:1
-
Database-TDX
Matlab 通达信股票数据接口,使用矩阵的算法直接复制数据,较常见的循环算法效率更高。(A Data interface for Matlab which can read stock data TDX, it can work more effective than other.)
- 2015-04-19 14:02:18下载
- 积分:1
-
match
《图像配准技术及其Matlab编程实现》一书的Matlab源码,有点检测、线检测、Hough变换、遗传算法、蚁群算法、Powell算法和插值算法等。("Image Registration and Matlab programming," a book of Matlab source code, a bit detection, line detection, Hough transform, genetic algorithm, ant colony algorithm, Powell algorithm and the interpolation algorithm etc.)
- 2021-04-02 15:29:07下载
- 积分:1
-
msf4
霍普菲尔德网络的另外一个例子,matlab编程(Hopfield networks, another example, matlab programming)
- 2008-01-06 16:15:40下载
- 积分:1
-
JHSantiagoTexcoco_FletcherReeves-MatLab
Prueba1 FletcherReeves
Hernández Santiago José
Maestría en Ciencias de la Computación
Septiembre / 2011
1. Comenzar con un punto arbitrario
2. Calcular Gradiente de Fi
3. Si el Gradiente Fi es igual a 0(converge), termina
4. Si el Gradiente Fi es !=0 continuar
5. Encontrar dirección de búsqueda
Si= -GradienteFi= - Gradiente F(Xi)
6. Determinar la Longitud Optima del incremento lamda(i) en dirección Si
X(i+1)=X(i)+lamda(i)*S(i)= X(i)-lamda(i)*Gradiente F(Xi)
7. Hacer i=2
8. Obtener Gradiente Fi
9. Calcular Si= -GradFi + ( [abs(GradFi)^2]/[abs(GradF(i-1))^2] )*S(i-1)
10. Determinar la Longitud Optima del incremento lamda(i) en dirección Si
X(i+1)=X(i)+lamda(i)*S(i)= X(i)-lamda(i)*Gradiente F(Xi)
7. Verificar Optimalidad de X(i+1)
Si es optimo, detener
Si no es optimo hacer i=i+1 e ir al paso 8
- 2013-08-08 14:30:24下载
- 积分:1
