搜索资源列表
shuzhi
- largreance插值 迭代法 迭代改善法-largreance interpolation Iterative Improvement Act
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-linea
gaosichazhi
- 这是在应用程序中截取的一段用高斯列主次法写的插值曲线,代码不是很难,方便移植.-This is the application procedures for the interception of the Gaussian out with secondary laws written curve interpolation, code is not difficult, facilitate transplantation.
Computmethod
- 有关计算方的经典算法的C程序,迭代、插值、各类积分公式,常微分方程的数值求解、Gauss列主元消去法-side of the calculation of the classical algorithm C procedures, iterative, interpolation, all integral formula, and often the numerical solution of differential equatio
paowu
- 本程序采用visual c++开发,用于机械优化设计工程计算,为经典的抛物法,又称二次插值,运行结果良好。-the procedures used visual c development, design optimization for mechanical engineering, for the classical parabolic law, also known as the quadratic interpolation,
Numberical
- 拉格郎日插值多项式,高斯-赛德尔迭代法,改进欧拉法(C++),如果有什么错误,请联系tudaoyong456@163.com-Lagrange polynomial interpolation, Gauss- Seidel iterative method to improve Euler (C++), If there is anything wrong, please contact tudaoyong456@163.com
mathmodel
- 这是一个好的建模学习资料,赶快下载吧, 数学建模十大算法 ( 包含:蒙特卡罗算法、数据拟合、参数估计、 插值等数据处理算法、线性规划、整数规划、多元规划、二次规划等规划类问题、 图论算法、动态规划、回溯搜索、分治算法、分支定界等计算机算法、 最优化理论的三大非经典算法:模拟退火法、神经网络、遗传算法、 网格算法和穷举法、一些连续离散化方法、数值分析算法、图象处理算法)-This a good model to
CHWF1
- 用C语言绘图显示实现数值分析中的Euler、 advanced Eular、punge_kutta、Lagrange、Newton插值算法以及二分法和弦切法-C language mapping realize numerical analysis of Euler, advanced eular, punge_kutta, Lagrange, Newton interpolation algorithm and dichotomy P
CUBIC_B-SPLINE
- 三次B样条插值曲面及其实现::目前在CAM/CAM的自由曲面构造方法中,较流行的有B样条曲面,Bezier曲面、Ball曲面等方法,但由这几种方法和成都是拟合曲面,而百插值曲面,常常不能满足一些工程实际中严格插值的要求,本文构造了一种自由插值曲面生成方法-B样条母线法,所生成曲面达到C^2级光滑,适用机械,模具、汽车、造船等制造加工行业的复杂曲面设计。-Three B-spline interpolation surface and r
insert_value
- 面向对象的差值法算法,通过调用不同函数包含了各种插值方法-Object-oriented difference method algorithm, by calling the function that contains a variety of different interpolation methods
mathmatic
- 数值计算 中的各种算法: Lagrame插值,Newton迭代法,Runge-kutta,二分法求根,解线性方程组的Guass列主元消去法,自动选择步长Simpson法-Numerical calculation of the various algorithms: Lagrame interpolation, Newton iteration, Runge-kutta, dichotomy roots, solving linea
niudundiedai
- 数值分析中的牛顿迭代法,是课程学习是自己编的,是对函数进行插值的一种方法-Numerical analysis of Newton s iterative method, curriculum learning is own is on the function of a method of interpolation
hanshubijin
- 比较最佳平方逼近二次多项式,Chebyshev截断级数法以及插值余项极小法这三种函数逼近方法,并给出图形-Comparison of the best square quadratic polynomial approximation, Chebyshev truncated series method as well as more than a very small interpolation method of the three
triangle
- 三角形法插值,用于对散点加密,绘制地形图,插值点输出后能知道其三维坐标-Triangle interpolation, used for encryption scatter, geological mapping, interpolation points, the output can know its three-dimensional coordinates
CALCU.ZIP
- 数值分析中的常用方法,包括解方程,列主元高斯消去法解方程组,最小二乘拟合,插值,数值积分等,通过调试,全部可用.-Numerical analysis of commonly used methods, including solution of equations, PCA out Gaussian elimination solution of equations, least-squares fitting, interpolat
Math
- 计算方法--拉格朗日插值函数,迭代法,欧拉法的实现-Calculation method- Lagrange interpolation function, iterative method, Euler s method to achieve
suanfa
- 文件里含有10经典的算法,包括拉格朗日插值、牛顿插值、高斯列主元消去法等-Document contains 10 classic algorithms, including the Lagrange interpolation, Newton interpolation, Gaussian elimination method listed, such as PCA
Bus-Control
- 程序目录 附录一。MATLAB程序:busmod.m文件 % 汽车悬架系统模型建立 附录二。MATLAB程序:PID.m文件 % 悬架系统根轨迹图和PID控制器设计 附录三。MATLAB程序:bode.m文件 % 汽车悬架系统Bode图法频率响应设计 附录四。MATLAB程序:stafeed.m文件 % 汽车悬架系统的状态反馈控制器设计 附录五。MATLAB程序:modela.m文件 % 双轮汽车悬架系统
dsafdsa
- 出了一种基于近邻插值取样法的自适应奇检测彩色图像水印算法.该算法利用近邻插值取样法,根据载体图像的 大小,自适应调节二值水印图像的尺寸,经ArnoM置乱预处理后,嵌入到彩色载体图像蓝色分量的Dcr高频系数中,检测时不需要 原载体图像.实验表明,该算法具有较强的鲁棒性和良好的不可感知性,可有效低抗剪切、加噪、锐化等常见的图像攻击.-Out of a neighbor-based interpolation of the adapt
computationalmathematics
- 辛普森方法,样条插值,高斯迭代,啦格朗日差值,牛顿迭代,超加速收敛,龙贝格方法等等,数值计算必备!-Simpson method, spline interpolation, Gaussian iteration, you granges margin, Newton iteration, super speed up convergence, Romberg methods, numerical computation must!