搜索资源列表
35
- 四级四阶龙格库塔格式,求解微分方程的好算法。-Four fourth-order Runge-Kutta format, a good algorithm for solving differential equations.
lq
- 所编子程序为标准四阶龙格库塔解常微分方程的程序,可以不作修改直接使用。再则,主程序当中用一个方程验证其正确性,并可以输出函数的一阶导。-Subroutine, compiled by a standard fourth order Runge-Kutta ordinary differential equation solution procedure can be used directly without modification. Furthermore, the main program
calculation
- 典型数值计算方法。包括:经典四阶龙格库塔法、高斯列主元法、牛顿法、龙贝格、三次样条插值算法、M次多项式曲线拟合、二分法、不动点法、霍纳法、牛顿-拉弗森迭代等十项典型算法的算法流程及C源代码和例子。-Typical numerical calculation. Include: classical fourth order Runge-Kutta method, Gauss main-element method, Newton method, Romberg, cubic spline inte
ICA.m
- 关于独立成份分析中的若干算法的程序,一个优化的计算四阶ICA/BSS的算法-a number of source code about independent component analysis algorithm.A computationally optimized fourth-order based ICA/BSS algorithm
RungeKutta
- 研究生课程:数值分析课后题:定步长四阶Runge-Kutta法求方程组(完全个人编写)-Runge-Kutta;Numerical Analysis
DMC4D
- 对一个四阶系统用DMC算法进行控制仿真,可移植性强,只需改变系统模型即可-With a fourth-order DMC algorithm to control system simulation, portability, you can simply change the system model
function
- 一个函数的编写,实现四阶龙格-库塔方法解高阶微分方程组的初值问题 -Write a function to achieve fourth-order Runge- Kutta method for solving the initial value problem of higher order differential equations
eularjiefangcheng
- 欧拉法解常微分方程,并与四阶龙格库塔法比较-Euler method for solving ordinary differential equations, and fourth-order Runge-Kutta method with the comparison
suanfa
- 数值解与理论解对比可知,四阶龙格-库塔法的精度已经很高,用它来解一般常微分方程已经足够了。-Numerical comparison shows that the theoretical solutions, Runge- Kutta method has high accuracy, and use it to solve ordinary differential equations general enough.
FindEigenvalue4thorderBVP
- 此程序用于求解四阶常微分边值问题的特征值问题,算例说明附在其中。-Finding the eigenvalues for 4-th order (BVP)ODE
AnAdaptiveFourDimensionalKalmnFilteforDopplerFrequ
- 用泰勒级数展开的形式表示高动态的载波相位参数, 给出了对高动态载体和各阶频率参数 估计的四阶加权扩展卡尔漫滤波器(EKF) , 以及实现高动态跟踪滤波器必须的状态转移矩阵和动 态噪声协方差矩阵. 计算机模拟实验分析了对载波相位和各阶频率的跟踪结果.-Taylor series expansion with the form that the carrier phase high-dynamic parameters, given the high-order dynamic freq
hanming
- 利用常用四阶龙格-库塔公式求初值,再利用汉明公式、米尔恩公式和改进的四阶亚当斯隐式公式及常用的四阶龙格-库塔公式求解其余的数值解求解常微分方程初值问题,并计算它与精确解的误差-Use of commonly used fourth order Runge- Kutta initial value to the Formula, and then use the Hamming formula, Milne formula and improved fourth-order implicit Ad
adams
- 用四阶亚当斯显式公式求解常微分方程初值问题是一种比较有效的方法-Adams with the fourth-order explicit formula for solving ODEs is a more effective method
longjie
- 利用常用的四阶龙格-库塔公式求初值再分别利用米尔恩公式和改进的亚当斯方法及常用的四阶龙格-库塔公式求解其余的数值解,并计算它们与精确解的误差-By use of Runge- Kutta formula and then find the initial value, respectively, and improved the formula by Milne Adams methods and commonly used Runge- Kutta formula to solve the r
yadangsi
- 利用四阶亚当斯隐式公式求解常微分方程初值,并计算它与精确解的误差-Using fourth-order implicit Adams formula for solving initial value ordinary differential equations, and calculate the error with the exact solution
Line
- 画四阶三次HERMITE曲线,BEZIER曲线和B样条曲线,并画出BEZIER曲面-Painting of fourth order three HERMITE curve, BEZIER curves and B-spline curves and surfaces draw BEZIER
NumericalSolutionofOrdinaryDifferentialEquationsso
- 常微分方程的数值解法源码,包括欧拉法,RK法,四阶高斯法,LAIII法,LBIII法,LA-LBIII配置法-Numerical Solution of Ordinary Differential source, including Euler method, RK method, fourth order Gauss method, LAIII law, LBIII method, LA-LBIII collocation method
matalab
- matalab在数值计算中的应用,四阶龙哥库塔法的应用。-matalab in numerical computation, the four order Runge Ge Kuta method application.
Fourth-order-dragon-Kutta
- 文介绍了利用四阶龙格-库塔法解微分方程的姿态解算方法,并以典型圆锥运动作为输入,检验了算法的可靠性。-The article introduced the use fourth-order dragon standard- Kutta law solution differential equation s posture resolving method, and takes the input by the typical conical motion, examined the algor
OdeTest
- 欧拉积分、二阶龙哥库塔积分、四阶龙哥库塔积分-Euler integration, second Long Ge Kuta points, four points order Runge Ge Kuta