资源列表
roughness
- 可以对一维波形数据进行拟合,高斯滤波,计算粗糙度等-Can be one-dimensional wave-shaped to fit the data, Gaussian filtering, calculation of roughness
marunge4gh
- 1 用途:4阶经典龙格库塔格式解常微分方程y =f(x, y), y(x0)=y0 格式:[x, y]=marunge4(dyfun,xspan,y0,h) dyfun为函数f(x,y), xspan为求解区间[x0, xn], y0为初值, h为步长, x返回节点, y返回数值解 2 用途:用LU分解法解方程组Ax=b -1 Uses: 4-order classical Runge-Kutta solution of ordinary differential
gggggggggggggg
- 数学机械化中函数应用在MATALAB中如何运算, 介绍与特征列方法相关的算法,包括吴零点分解定理(代数情形和微分情形)以及投影定理的实现等。-Mathematical mechanization of functions used in computing MATALAB how to introduce the methods associated with the characteristic set of algorithms, including Miss zero decompos
work
- GM(1,1)模型GM(1,n) 灰色度模型 但回归-GM(1,1)
FEM_radiation
- 采用时域有限元算法对电磁场二维辐射问题的仿真计算。-Using time-domain finite element method for electromagnetic field simulation of two-dimensional radiation problem.
Pattern_recognition4
- 张学工老师模式识别第四次作业,分别用C均值方法,分层聚类方法和非监督参数下正态分布函数估计的贝叶斯决策对身高体重二维数据进行分类。-Zhang engineering teacher fourth pattern recognition operations, respectively C-means, hierarchical clustering methods, and non-normal distribution function under the supervision of th
angener.tar
- 用fortran编写的有限元网格划分程序,主要用于生成三角形单元。可用于不同的数值计算,比如有限体积法,有限单元法,等等。-ANGENER is a fortran source package able to generate triangulations, which can be used for different numerical methods, for example finite volume method, finite element method, etc.
Lyapunov
- It is a Fortuan Based codes to calculate Lyapunov Exponnent! It is especially useful in chaotic signal processing!
chazhiproject
- 数值分析中拉格朗日插值,切比雪夫插值多项式的求解,有具体题目-Numerical analysis of Lagrange interpolation, Chebyshev interpolation polynomial solution, there are specific topics
double
- 线性方程组迭代解法,包括SOR,CG ,BICG等-linear system iteration solver
GEP-decoding
- 基因表达式编程的一种解码方式的c++实现(网上关于gep的代码不多哦~)-a decoding VC edition fo GEP(gene expression programming) chromosome
polyfit
- 该程序用来对多种物质混合物吸收光谱数据进行分析,拟合出光谱曲线并且得到其各个峰值位置所在。-The program is used for a variety of mixtures of substances absorption spectral data analysis, curve fitting, and by their spectral location of each peak.