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数值分析中的各种插值
- Lagrange插值+Newton插值+分段线性插值+复合梯形公式求定积分+列主元高斯+牛顿迭代+数据拟合+线性方程组迭代+++追赶法(1)
GaussSeide
- 实验题目:求解线性代数方程组的迭代法 相关知识:求解线性代数方程组的Gauss-Seidel迭代法的计算公式如下 数据结构:一个一维数组和一个二维数组 算法设计:用Gauss-Seidel迭代法求解线性代数方程组的算法如下 第一步:对于i=1,2,…,n (取零向量为初始向量) 第二步:e←0 第三步:对于i=1,2,…,n ⑴ ⑵对于j=1,2,…,n但 ⑶ ⑷若 ,则 ⑸ 第四步:若 (预先给定的误差精度),则转
gauss
- 用于求解线性方程组的经典高斯迭代法!!!程序经过优化处理,运行速度快,且注释完全易于阅读,欢迎大家下载-Solving linear equations for the classical iterative method of Gauss! ! ! Optimized procedures to deal with, fast, and completely easy-to-read notes, welcome you to download! !
spgs
- 用途:利用二分法快速求解非线性方程f(x) = 0; 用向量形式(普通存储格式)的Gauss-Seidel迭代解线性方程组Ax=b;Newton迭代法解非线性方程f(x) = 0;用分量形式的SOR迭代解线性方程组Ax=b;用向量(稀疏存储)形式的Gauss-Seidel迭代解线性方程组Ax=b -Purposes: the use of dichotomy quickly solving nonlinear equations f (x) = 0 with vector form o
SOR
- 这是松弛迭代法(SOR)的源代码,对解决线性方程组求解问题很有帮组-This is a relaxation iterative method (SOR) of the source code to solve linear equations to solve the problem is to help group
Iteration
- 迭代法求解线性方程组的具体方法以及不同方法之间的比较-Iterative method for solving linear equations of the specific methods and comparison between different methods
111
- 线性方程组的迭代法与数值积分的实验报告,比较详细 -Linear iteration and numerical integration of the laboratory report, more detailed
Gauss-Seidel
- 高斯迭代法求线性方程组,用于数值分析方面,-Gauss-Seidel
diedai
- 详细讲述了线性方程组的迭代求解的具体方法,内容比较丰富,有对应的例子-A detailed account of the specific method for iterative solution of linear equations, is rich in content, there are examples of corresponding
gauseidel-jacobi-richason-SOR
- 高斯赛德尔迭代法,雅可比迭代法,理查森迭代算法,超松弛迭代算法的matlab程序。上述算法均用于求解线性方程组。-High Sisaideer iterative method, Jacobi iteration, Richardson iterative algorithm, over relaxation algorithm matlab program. The algorithm for solving linear equations.
XianXing
- 线性方程组的求解方法,内涵高斯消元法、LU分解法和迭代法。-failed to translate
linear-equations-iterative-algorithm
- 《计算科学与数值方法》中解线性方程组的迭代算法的c++代码实现-" Computational Science and numerical methods of solution of linear equations iterative algorithm c++ code to achieve
Gauss-Seidel
- 用Gauss-Seidel迭代法求解线性方程组,输入文件及线型方程组的内容放在Gauss-seidel文件中。-With the Gauss-Seidel iterative method for solving linear equations, linear equations of the input file and the contents on the Gauss-seidel file.
新建文件夹 (2)
- 雅可比迭代的MATLAB代码,可以求解一些线性方程组 用鼠标作图(The MATLAB code of Jacobi iterative, you can solve some linear equations Plot with a mouse)
CG
- 程序可以求解线性方程组,迭代速度相对较快,复杂度O(Nlog(N))(The program can solve the linear equations, the iteration speed is relatively fast, the complexity is O (Nlog (N)))
高斯-赛德尔迭代法求线性方程组Ax=b的解
- 该程序主要是利用高斯-赛德尔迭代法求线性方程组Ax=b的解(The program mainly uses the Gauss-Seidel iteration to solve the solution of the linear system Ax = b)
GausANDJacobian
- 高斯消元以及Jacobian迭代求解线性方程组,有详细的注释(Gauss elimination and Jacobian iterative solution of linear equations have detailed annotations)
SOR
- 超松驰迭代法,用于快速求解线性方程组,可按每行注释理解算法原理,可自行调整松弛因子(一般建议1.2左右有良好效果)(The super relaxation iteration method is used to solve the linear equations quickly. It can understand the algorithm principle according to each row annotation, and can adjust the relaxation f
5线性方程组的迭代解法—Jacobi迭代法
- 使用matlab编写了Jacobi迭代法的函数,并通过例子进行了验证。(The function of Jacobi iteration method is written by MATLAB, and is verified by an example.)
顾伟三机九节点仿真程序
- 电力系统潮流计算体现在数学就上是多元非线性方程组的求解问题,求解的方法有很多种。牛顿—拉夫逊法是数学上解非线性方程式的有效方法,收敛性好、迭代次数少。将牛顿—拉夫逊法用于潮流计算是以导纳矩阵为基础的,由于利用了导纳矩阵的对称性、稀疏性及节点编号顺序优化等技巧,使牛顿—拉夫逊法解题规模和计算速度进一步提高,此算法至今仍是潮流计算中广泛采用的优秀算法。(Power flow calculation in power system is a problem of solving multivariat