资源列表
赫夫曼算法C++
- 赫夫曼压缩算法的C++实现,可用于对字符串的压缩并计算压缩率(Huffman compression algorithm C++)
RANSAC-Toolbox-master
- RANSAC算法经常用于计算机视觉中。例如,在立体视觉领域中同时解决一对相机的匹配点问题及基本矩阵的计算。(RANSAC algorithms are often used in computer vision. For example, in the field of stereoscopic vision, a matching problem of a pair of cameras and a calculation of a basic matrix are simultaneousl
lagrange
- 拉格朗日插值法可以找到一个多项式,其恰好在各个观测的点取到观测到的值。这样的多项式称为拉格朗日(插值)多项式。数学上来说,拉格朗日插值法可以给出一个恰好穿过二维平面上若干个已知点的多项式函数。(Lagrange interpolation can find a polynomial, which happens to take the observed value at each observation point. Such polynomials are called Lagrange po
zuoye
- 画图.哪位高手知道edit keypressfcn是如何响应键盘输入的,我想在edit text只要有键盘输入就立即作出响应!(plot figure Create uicontrols to allow users to adjust the appearance of a plot. For instance, create a program file called myui.m that contains the following code.)
c130
- changing orientation of c130 in matlab
testing
- 这是频域光声成像实验中,模拟对光声信号进行采样时读取信号的代码(the code of signal-reading)
kruskal
- kruskal 算法,需要输入边和权值的向量。顶点数为m的 m乘m大小的上三角矩阵, 并且 没有权值的顶点之间关系的权值等于50(Kruskal algorithm, the vector that requires the input edge and the weight value. M multiplied by the M size of the upper trigonometric matrix with the vertex number of M, And the weig
arimanet
- ARIMA模型全称为自回归积分滑动平均模型(Autoregressive Integrated Moving Average Model,简记ARIMA),是由博克思(Box)和詹金斯(Jenkins)于70年代初提出一著名时间序列预测方法[1] ,所以又称为box-jenkins模型、博克思-詹金斯法。其中ARIMA(p,d,q)称为差分自回归移动平均模型,AR是自回归, p为自回归项; MA为移动平均,q为移动平均项数,d为时间序列成为平稳时所做的差分次数。所谓ARIMA模型,是指将非平稳
Opt Mfile
- dynamic programming in matlab
decision_tree
- 以隐形眼镜为例的决策树分类算法代码,lenses.data是存放数据的文件,此代码使用python3实现(The classification algorithm code of the decision tree with the contact lens as an example)
DielScatExact
- GSM algorithm matlab code
search_methods_matlab
- David Fletcher Powell algo on matlab