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pianweifen
- 本程序采用matlab求解常见的几种偏微分方程-This procedure uses matlab partial differential equations to solve several common
solve
- 偏微分方程的matlab解方程的具体应用,速度快捷,并且用途很广泛-Matlab partial differential equations for the specific application, speed, fast, and is so widely used
fastfft
- 快速傅氏变换(FFT)是离散傅氏变换(DFT)的快速算法,它是根据离散傅氏变换的奇、偶、虚、实等特性,对离散傅立叶变换的算法进行改进获得的。快速傅里叶变换有广泛的应用,如数字信号处理、计算大整数乘法、求解偏微分方程-Fast Fourier Transform (FFT) is the discrete Fourier transform (DFT) in the fast algorithm, which is based on discrete Fourier transform of t
CAlgorithm
- 特别强悍!包含了我们在学习中遇到的各种算法:如插值、查找、汉字操作,数值积分、微分方程求解等等许多!-Particularly tough! Included in our study encountered in the algorithm: If interpolation, find, Chinese operations, numerical integration, solving differential equations and so many!
MoM_Quadraticequations
- 利用MATLAB编程实现用矩量法求解2次微分方程,附带MOM课件-Using MATLAB Programming with the Method of Moment 2 differential equations, with MOM courseware
sijielonggekutafajieyijiechangweifenfangcheng
- 本程序是用Visual Biasic 实现用四阶龙格-库塔方法对一阶常微分方程(其通式为dy/dx=m-qx(m,q为常数))求解,并用点表示出各函数值在坐标轴上的位置。 龙格-库塔(Runge-Kutta)方法是一种高精度的单步法,比欧拉格式更精确,它采用了间接使用泰勒级数的技术。他既保留了泰勒公式的精度高的特点又避免过多的计算导数值。他是有泰勒公式推倒出的,因此它要求所求的解应具有较好的光滑性。 坐标表示其位置,这样可以直观的看出不用微分方程解的位置以及它们的联系。 -This
cn
- 偏微分方程数值解法中用C-N格式求解抛物型方程程序-Numerical solution of partial differential equations using CN format procedures for Solving Parabolic Equations
matlabvolating
- 用于求微分方程问题的数值解法,自己编的程序,希望高手指点-Demand equations for the numerical solution of the problem, his series of procedures in the hope master guiding
zuhe
- 车载组合导航仿真(直接解微分方程)捷联和gps以及里程义组合,直接解微分方程-Vehicle Integrated Navigation Simulator (direct solving differential equations) and the strap and the gps mileage justice portfolio, direct solutions of differential equations
adm
- admin 偏微分方程数值解,算法C++实现-admin algorithm C++ Implementation
Crank_Nicolson
- Crank_Nicolson.算法C++实现,偏微分方程数值解,保证能运行-Crank_Nicolson. Algorithms C++ implementation, numerical solution of partial differential equations, guaranteed to run
longgekuta
- longgekuta.算法C++实现,偏微分方程数值解,保证能用-longgekuta. Algorithms C++ implementation, partial differential equations, can be used to ensure
ODE
- 这个例子演示了如何使用这两个公式的字符串模式的多态性常微分方程求解器。-This example demonstrates how to use the polymorphic ODE solver in both Formula String mode and VI mode.
LITI823
- 有限差分法解二阶常微分方程边值问题。计算更为简便,精度更高-Finite Difference Method for Solving Boundary Value Problems for Second Order Ordinary Differential Equations. Computing easier, more accurate
Runge-Kutta
- 龙格-库塔法(Runge-Kutta)是用于模拟常微分方程的解的重要的一类隐式或显式迭代法。-Runge- Kutta method (Runge-Kutta) is used to simulate the ordinary differential equations of an important class of implicit or explicit iterative method.
R_Kmethod
- 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。这个程序就是用龙格库塔求解微分方程数值解,-Use R_K method to solve a function
0002
- 用c++实现的差分格式求解微分方程。两点边值问题的差分格式- yong chafen geshi shijiande qiujie weifenfangcheng
PDE
- 偏微分方程图像复原代码,其中有频域迭代盲解卷积H1模型,TV去噪模型,自己编的自适应去噪模型,以及改进的自适应去噪模型,令附卫星图片,PSNR代码-Image restoration code of partial differential equations, including iterative frequency-domain blind deconvolution H1 model, TV denoising model, made themselves adaptive denois
Adams
- 使用四阶Adams预报校正方法解微分方程,可取不同步长比较分析运算结果-Using fourth-order Adams forecast correction method for solving differential equations, it is desirable comparative analysis of long not synchronized operation result
Lineartargeting
- 用线性打靶算法计算微分方程边值问题,分析运算结果与步长的关系-Shooting algorithm using the linear boundary value problems, analysis of operational results and the relationship between step