资源列表
FDTD_1D
- 1D的有限差分时域法计算电磁波散射c语言模拟程序-1D finite difference time domain electromagnetic wave scattering method c language simulation program
StuffCalculateC++
- 自己写的有关计算矩阵的小程序,好象有点错的地方,大家自己也看看啊-himself wrote the calculation of the matrix of small procedures, it seems a bit wrong place, we also look at the ah
frious
- 数学变换的算法,特别是傅里叶级数逼近。 卡尔曼滤波算法-mathematic algorithm, particularly Fourier series approximation. Kalman filtering algorithm
fushu
- 关于复数的运算的算法,例如复数乘除还有复数正弦的作图的算法-on the complex arithmetic algorithm, for example, there are complex multiplication and division complex mapping of the sinusoidal Algorithm
specialfuntion
- 特殊函数的c语言算法,内容包括了第一第二类的贝塞函数和某些椭圆积分算法-special function of the c language algorithms, including the first second category of Bessel functions and some elliptic integral algorithm
huigui
- 数据处理与回归分析的算法,内容包括了一元及多元的回归分析算法-data processing and regression analysis algorithms, including a million and multiple regression analysis algorithm
FOURier1
- 实数据快速傅里叶变换算法 实数据快速傅里叶变换算法-false information Fast Fourier Transform algorithm false information Fast Fo urier Transform algorithm
qiujie
- 【问题描述】已知线性方程组AX=B,求解该方程组。参考算法: 消去法:将列向量B加到矩阵A的最后一列,构成增广矩阵AB。对AB进行下列三种初等变换,使原矩阵A的部分的主对角线上的元素均为1,其余元素均为0,则原列向量B的部分即为X的值: 1. 将矩阵的一行乘以一个不为0的数 2. 将矩阵的一行加上另一行的倍数 3. 交换矩阵中两行的位置 - [ Question descr iption ] known system of linear equations AX=B, s
nrfajiechaoliu
- 电力系统稳态分析中用牛顿-拉夫逊法求解电力系统稳态潮流问题的MATLAB程序-power system steady-state analysis using the Newton-Raphson method to solve power system steady trend of MATLAB procedures
luoti
- 一个模拟球体抛射的程序,分别使用了Euler 公式和Euler-Cromer公式进行模拟计算(含有分析报告),可作为高校计算机模拟课程编程作业-a spherical projectile simulation procedures, Euler, using the formula and Euler - Cromer formula simulation (containing analysis ), as college courses computer simulation progra
spso1
- 用c#编写的随机微粒群算法的源程序代码,希望对大家有所帮助!-prepared using random particle swarm algorithm source code, we want to help!
ACS(c++)
- 蚁群算法是新近出现的一种智能优化算法,是求解组合优化问题的又一种好的方法!-ant colony algorithm is a newly emerging intelligent optimization algorithm, the solution is the combinatorial optimization problems also a good way!