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Longest_shortest_route
- 1. 在程序运行过程中首先根据目标函数和等式约束条件写出拉格朗日函数,确定出新的目标函数的维数和系数,并输入到程序中从而得出结果。在本程序中,用到了列主元高斯消元法求解方程组。-1. First, the program is running according to the objective function and equality constraints to write the Lagrangian function, to determine a new dimension and
Lagrange_multiplier_method
- 1. 在程序运行过程中首先根据目标函数和等式约束条件写出拉格朗日函数,确定出新的目标函数的维数和系数,并输入到程序中从而得出结果。在本程序中,用到了列主元高斯消元法求解方程组。-1. First, the program is running according to the objective function and equality constraints to write the Lagrangian function, to determine a new dimension and
qiujieqicixianxingfangcheng
- 求解线性方程组算法实现,以方便数学计算模块的应用,提供便利-Algorithm for solving linear equations in order to facilitate the application of mathematical calculation module, to facilitate the
CG
- 求解线性方程组的共轭梯度算法( CG方法),-Solving Linear Equations Conjugate Gradient Algorithm
GaussJordan
- matlab编写的适用于数值分析求解线性方程组的程序-matlab numerical analysis prepared for the procedure for solving linear equations
LU
- 迭代法求解线性方程组,可以运用数值计算方法中的雅克比迭代法求解线性方程组-diadaifa
xianxingdaishu
- 可以实现矩阵行列式的任意变换,求任意向量的极大无关组,齐次非齐次线性方程组的求解-Can achieve an arbitrary transformation matrix determinant, find great vector independent of any group, homogeneous non-homogeneous linear equations to solve, etc.
errestools
- 用来估计病态线性方程组正则化求解时的误差。-To estimate the error of regulation method for the ill-conditioned system of linear equations
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
guass
- 列主元高斯消去法对于某电路的分析,归结为求解线性方程组RI=V。其中 (1)编制解n阶线性方程组 列主元高斯消去法的通用程序; (2)用所编制程序解线性方程组 ,并打印出解向量,保留5位有效数; -Out the main element Gaussian elimination of a certain circuit analysis, reduced to solving linear equations RI = V. Where (a) the prepar
GaussJordan
- 利用高斯约当方法,求解线性方程组,包括VC++源码以及运行程序-Gauss-Jordan
2-76
- 求解大型疏松方程组,ap方程组的系数矩阵,b[放回解向量-For solving large loose equations, ap equations coefficient matrix, b [back into the solution vectors
sdfsadfsdafasd123
- Differential Equations (ODE) Solver through Galerkin Method Galerkin方法求解常微分方程组的实现 这个matlab程序通过Galerkin方法求解常微分方程组,当然求解的结果是 Differential Equations (ODE)近似的解。-Differential Equations (ODE) Solver through Galerkin Method Galerkin method for
relaxation08_3
- 松弛法进行迭代,求解方程组的解。先输入矩阵维数、迭代最高次数、松弛因子、误差范围,然后输入系数矩阵、长数矩阵,程序自动根据松弛法进行迭代求解。-Iterative relaxation method, to solve equations. Input matrix dimension, the maximum number of iterations, relaxation factor, error range, then enter the coefficient matrix, long
Gauss
- 用高斯列主元法来求解线性方程组,计算并输出结果-Gaussian line with the main element method to solve linear equations, to calculate and output the result
mulDNewton
- 本代码为牛顿下山法求解非线性方程组。其调用格式为[r,m]=mulDNewton(F,x0,eps) 其中F:非线性方程组,x0:初始解,eps:解的精度;r:求得的一组解,n:迭代步数。-The code for Newton' s method for solving nonlinear equations. Its call format [r, m] = mulDNewton (F, x0, eps) where F: non-linear equations, x0: init
mulGXF
- 本代码为割线法求解非线性方程组。其调用格式为[r,m]=mulGXF1(F,x0,x1,eps) 其中,F:非线性方程组;x0初始解;x1:初始解;eps:解的精度;m:迭代步数。-The code for the secant method for solving nonlinear equations. Its call format [r, m] = mulGXF1 (F, x0, x1, eps) where, F: non-linear equations x0 initial s
definen31
- 用GAUSS-SEIDEL求解线性方程组-With the GAUSS-EIDEL for solving linear equations
liezu
- 全主元高斯-约当消元法 可以求解线性方程组-All Principal Gauss- Jordan elimination method for solving linear equations can be
Guass
- 高斯全主元消去算法是一种求解一般线性方程组的一种有效方法-Guass