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Gauss_SeidelMatlab
- Matlab程序\\有限差分法\\Gauss_Seidel迭代法的Matlab程序.rar-Matlab procedures \\ finite difference method \\ Gauss_Seidel iteration of the Matla b procedures. rar
有限差分法 迭代求解
- 用有限差分法解薛定谔方程,用迭代法求得各点的值,并用三维、二维图表示。
laplace2
- 正三角形区域的有限差分法MATLAB超松弛迭代,-Triangular region, finite difference method over-relaxation iteration MATLAB
GaussSeidelwudian
- 本例用五点差分法求解一个二阶偏微分方程,其间用Gauss-Seidel迭代求解-This example uses a five-point difference method for solving second order partial differential equations, during use Gauss-Seidel iterative
Jacobiwudian
- 本例用五点差分法求解一个二阶偏微分方程,其间用Jacobi迭代求解-This example uses a five-point difference method for solving second order partial differential equations, during which the Jacobi iterative
SORwudian
- 本例用五点差分法求解一个二阶偏微分方程,其间用SOR迭代求解-This example uses a five-point difference method for solving second order partial differential equations, with the SOR iterative solution during
solverss
- 对于抛物方程的具有差分形式的高精度线性迭代法-linear itearnating method
diancichang
- 用于计算电位。采用有线差分法迭代实现。显示出图像-Used to calculate the potential. Difference method using an iterative wired.
Laplace_resolution_simplied
- 有限差分法中简单迭代法计算场域节点的应用-Finite difference method in a simple iterative method to calculate the application node
leaves-bass-algorithm
- 这是一个贝叶斯独立分量分析(ICA)算法的线性瞬时混合高斯噪声模型和添加剂。解决问题的是ML-II推论,即资源的整合在发现源后和噪声协方差矩阵和混合了最大化的边际似然。充分统计量的估计平均场或变分理论和线性响应修正或通过自适应平均场理论水龙头。平均场方程,解决了信仰传播法的或连续的迭代。-This is a bayesian independent component analysis (ICA) algorithm of instantaneous linear mixed gaussian
111111
- 有限差分。超松弛迭代法相关程序和资料 有限差分。超松弛迭代法相关程序和资料-Finite difference. Super relaxation iteration method relevant procedures and material
Numerical-solutions-for-Matlab
- matlab常用数值计算,包括牛顿迭代,拉格朗日插值法,牛顿差值,高斯消元,三角分解法,追赶法等。-matlab numerical calculations, including Newton iteration, Lagrange interpolation, Newton difference, Gaussian elimination, triangular decomposition, and catch up with the law.
myGaussSeidel
- 用高斯赛德尔迭代法解椭圆型方程,这是一种差分解法-High Sisaideer iterative method for solving elliptic equations, which is a differential solution
diedai
- 用雅克比迭代法解椭圆型方程,这是椭圆型方程的差分解法。见于孙志忠编的《偏微分方程数值解法》的p41例题- Solutions of Elliptic Equations with Jacques iterative method, which is the solution of elliptic differential equations. Seen SUN Zhi-zhong series "Numerical Solution of Partial Differential Equa
Finite-difference---Laplace-equation
- 有限差分法求解拉普拉斯方程,超松弛迭代,光波波长计算模拟-Finite difference method for solving the Laplace equation, SOR, the wavelength computational simulation
jiandandiedai
- 本科电磁场与电磁波课程设计 基于有限差分法的二维边值问题的数值分析 简单迭代法 两种网格尺寸0.1和1-Electromagnetic Fields and Waves undergraduate curriculum design Numerical analysis of finite difference method based on two-dimensional boundary value problem Two kinds of simple iterativ
songchidiedai
- 本科电磁场与电磁波课程设计, 基于有限差分法的二维边值问题的数值分析, 超松弛迭代法,两种网格尺寸0.1和1-Electromagnetic Fields and Waves undergraduate curriculum design, finite difference method based on numerical analysis of two-dimensional boundary value problem, SOR method, two mesh sizes 0.
Finite-difference-of-Laplaces-
- 用有限差分法编程求解拉普拉斯方程在网格结点处的值并统计迭代次数-Solving the value of the Laplace equation in a grid junction with the finite difference method and statistical programming iterations
基于有限差分法的二维边值问题的数值分析
- 1. 在matlab中分析基于分离变量法的解析解; 2. 利用简单迭代法求解,与解析法结论对比,分析求解结果的精确度。分析过程至少包括:在网格尺寸为0.1 m和1 m两种条件下,两次迭代差值最大为10-10时的分析结论; 3. 利用超松弛迭代法分析,选择松弛因子,分析其对收敛速度(即迭代次数)的影响,并确定最优值。分析过程至少包括:在网格尺寸为0.1和1两种条件下,两次迭代差值最大为10-10时,迭代次数随松弛因子的变化,得到对应的最优松弛因子,与经验值(课本165页式子3.7.15)进行
有限差分matlab
- 使用matlab进行有限差分法的计算,使用迭代法对差分方程进行求解,自适应中值滤波代码(Finite difference method)