搜索资源列表
matlab-suanfadaquan
- 包括插值,函数逼近,矩阵特征值计算,数值微分,数值积分,方程求根, 非线性方程组求解, 解线性方程组的直接法,解线性方程组的迭代法,随机数生成等-Including interpolation, function approximation, eigenvalue computation, numerical differentiation, numerical integration, equation Root, non-linear equations to solve the direc
panduan
- 判断微分方程是否为病态方程,分别用定步长、变步长和适合病态系统的数值积分方法对系统求解,并与解析解进行对比,分析每种方法的求解精度和速度。-To determine whether the pathological differential equations, were used to set step, variable step size and suitable for pathological system numerical method for solving the system
bianyuanjiance
- 此源码包括对图像的边缘检测、梯度锐化和微分运算等图像处理的操作。-This source includes the image edge detection, gradient operator, such as sharpening and differential image processing operation.
Draw
- 实现画图功能,例如计算机中的中点画线,微分画线等基本操作-The realization of drawing functions, such as computers in stipple lines, painting lines, such as differential basic operation
weifenjisuan
- 微分的数值计算综合了算法在导弹中的应用,很有用-Differential synthesis of the numerical calculation algorithm in a missile application, very useful
matlab
- matlab解微分方程的详细算法以及一些例子-matlab solutions of differential equations as well as some examples of the detailed algorithm
matlabnumericintegrationtoolbox
- matlab数值积分工具箱自己加入到工具箱就能够使用了-matlab numerical integration toolbox itself can be added to the toolbox used
fifteen
- 第十五章 图像分析 15.1 边缘检测 15.1.1 微分算子 15.1.2 Log算子 15.1.3 Canny 算子 15.2 四叉树分解 15.2.1 四叉树分解 15.2.2 四叉树 MATLAB 函数 -Chapter XV 15.1 edge detection image analysis 15.1.1 Differential Operators 15.1.2 Log Operator 15.1.3 Canny operator 15.2
Chap11
- Chap11 常微分求解 计算机常用数值算法与程序(C++版)-Solving Ordinary Differential Chap11 computer numerical algorithm and procedures used (C++ Version)
maccormack
- 用maccormack算法求解偏微分方程-MacCormack algorithm using partial differential equations
NewtonAndromberg
- 非线性方程牛顿迭代法和数值积分的龙贝格解法-Newton iteration of nonlinear equations and numerical solution of integral Romberg
rungekutta
- 用runge-kutta方法求解微分方程-Using runge-kutta method for solving differential equations
longjie
- 用VC编写的程序,实现龙格库塔求解微分方程数值解-VC preparation procedures used to achieve solution of differential equations Runge-Kutta numerical solution
BVP_examples
- 如何利用bvp4c解决微分方程的边值问题的几个例子。-Bvp4c how to use differential equations to solve boundary value problems for a few examples.
duff
- 吸引到某个吸引子的点集叫该吸引子的吸引盆 吸引子:点在迭代的作用下得到的结构。一般可以用微分方程确立。例如:Lorenz吸引子-Attracted to the attractor of a point set is called the attractor basin of attraction of attractor: point in the role of iteration under the structure. Ordinary differential equations
jie
- 用四阶Runge-Kutta法解延迟微分方程组,用到的朋友看一下啊-Using fourth-order Runge-Kutta method for delay differential equations, a friend used to look at ah
1
- 基于偏微分方程的图像去噪中差分格式的研究一篇论文,给出了图像去噪的一种基本的研究方法,很有效-Based on partial differential equations of image denoising in a differential format research papers, image denoising is given one of the basic research methods, very effective
longgekuta
- 工程中很多的地方用到龙格库塔求解微分方程的数值解, 龙格库塔是很重要的一种方法,尤其是四阶的,精确度相当的高。-Works a lot of places used for solving differential equations Runge-Kutta numerical solution, Runge-Kutta is a very important, especially fourth-order, and very high accuracy.
valueanalysis
- 数值微分和数值积分:Newton-Cotes公式、复化公式和区间逐次半分法、外推法和Romberg积分、自适应Simpson积分法 [ReMap.rar] - EASYARM2200教学实验平台上的存储器映射 -Numerical Differentiation and Numerical Integration: Newton-Cotes formulas, complex formulas and interval of successive half-hours law, ext
matrix
- 常用算法大合集; 包括插值、查找、常微分方程组求解、多项工与连分式函数计算、非线性方程与方程组求解、复数运算、汉字操作、基本图形操作、极值问题、矩阵特 -Commonly used algorithm for large collection including interpolation, find, ordinary differential equation solving, a number of workers and even fractional function, the