搜索资源列表
vsrk4
- 龙格-库塔(Runge-Kutta)法是一种不同的处理,作为多级方法为人们所知。 它要求对于一个简单的校正计算多个 f 的值。 这里是变步长四阶龙格库塔法的c程序-Runge- Kutta [Runge-Kutta] method is a different treatment, as a multi-stage method for people to know. It requires a simple correction for the calculation of
NumericalAlgorithm
- 高斯赛德尔迭代法,高斯消去法,龙贝格算法,龙格-库塔算法,雅各比迭代法,二分法,最小二乘法……等常用数值算法-Gauss Sider method, Gauss elimination method, Romberg algorithm, Runge- Kutta algorithm, Jacobi iterative method, the dichotomy, the least square method and so on ... ... commonly used numerical
naviga090205
- 前人用四阶龙格库塔方法进行微分方程解算,用matlab编写的源代码,主要用于四元素微分方程的实时解算,上传-Using fourth-order Runge-Kutta methods for differential equation solvers, prepared to use matlab source code, mainly for the four elements of real-time differential equation solver
four-stepRunge-Kuttastatutoryfour-stepRunge-Kuttam
- 解微分方程(组)的定步长四阶龙格库塔法算法源代码-Solution of differential equations (Group) of fixed step size fourth-order Runge-Kutta method algorithm source code
graphics_flame
- openGL龙格库塔公式的使用,实现了火焰,水流,圈圈等。-Runge-Kutta formula openGL use a flame, water, circle and so on.
runge_kutta
- 本文用龙格库塔法求解了不拉休斯解。龙格库塔法是求解高阶微分方程的有力工具,本文对龙格库塔方法作了简要介绍,并附上了matlab源程序。-in this paper a runge_kutta method was used to slove the blasius equation in the environment of matlab.
mimu
- 自己仿真的四元数法的龙格库塔的姿态解算matlab仿真-Their simulation method quaternion attitude Runge-Kutta solver matlab simulation
mainc
- 在c++环境下的计算方法程序源代码,包含LU分解,迭代法,二分法,复合梯形公式,简单迭代法,龙贝格公式,最小二乘法拟合,四阶龙格库塔公式,辛普森公式和主元消去法-C++ environment in the calculation of the next source code, including LU decomposition, iterative method, dichotomy, composite trapezoidal formula, a simple iterative me
shuzhijifen
- 基于VC环境的面向方程的数值积分算法,本程序以卫星在空中运行的运动方程为例,采用四阶-龙格库塔算法解微分方程,以bmp图片给出输入参数和界面,很好的阐述了如何利用四阶-RK解微分方程-VC-based environment equation-oriented numerical integration method, this program runs the satellite equations of motion in the air, for example, using fourth
Fourth-orderRungeKutta-rule
- 四阶龙格-库塔法则求解微分方程,四阶龙格-库塔法则求解微分方程-Fourth-order Runge- Kutta rule for solving differential equations, fourth-order Runge- Kutta rule for solving differential equations
Three-pointmethodLaunchVehicleTrackingSystem
- 三点法跟踪运载火箭系统跟踪目标弹作匀速直线运动,拦截弹做匀速率运动。里面微分方程是用欧拉法求解的,为了提高精确度,改成四阶龙格库塔法-Tracking system to track the target missile launch vehicle for uniform linear motion, interceptor uniform rate of movement to do. Which is Euler' s method for solving differential
rk4
- 龙格库塔四阶方法,matlab编程,仅供参考-Runge-Kutta fourth-order method, matlab programming, reference
marunge4gh
- 1 用途:4阶经典龙格库塔格式解常微分方程y =f(x, y), y(x0)=y0 格式:[x, y]=marunge4(dyfun,xspan,y0,h) dyfun为函数f(x,y), xspan为求解区间[x0, xn], y0为初值, h为步长, x返回节点, y返回数值解 2 用途:用LU分解法解方程组Ax=b -1 Uses: 4-order classical Runge-Kutta solution of ordinary differential
runge-kutta
- 常微分方程的数值解法及仿真 一、 欧拉(Euler)公式 2 二、 龙格-库塔公式 2 1. 二阶龙格-库塔公式 2 2. 四阶龙格-库塔公式 2 三、 一阶常微分方程组的数值解法 2 四、 仿真算例 4 仿真1 应用欧拉法 4 仿真2 应用二阶龙格-库塔法 5 仿真3 应用四阶龙格-库塔法 6 附录 Matlab程序 7 1. 欧拉法程序 7 2. 二阶龙格-库塔法程序 8 3. 四阶龙格-库塔法程序 9 参考文献 10 -runge
changweifenfangchengshuzhijie
- 自编常微分方程初值问题的常用算法,包括折线法、改进欧拉法、4阶龙格-库塔法-Self-compiled initial value problems of ordinary differential equations commonly used algorithms, including the broken line method, improved Euler' s method, 4-order Runge- Kutta method
marungemaspline
- 4阶经典龙格库塔格式解常微分方程y =f(x, y), y(x0)=y0 marunge4 用途:三阶样条插值(一阶导数边界条件)maspline-w
GRKT10
- 最常用的四阶龙格—库塔法求解一阶常微分方程的C语言实现方法-The most commonly used fourth-order Runge- Kutta method for solving a first-order ordinary differential equations of the C language implementation method
Runge_Kutta
- 这是大学数值分析的实验——龙格库塔格算法的源码,帮助大家学习和掌握龙格库塔算法!-This is the University analysis of the experiment- Long Gekutage algorithm source code, to help you learn and master the Runge-Kutta algorithm!
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
stochasticresonance
- 随机过程的改进代码,使用龙格-库塔算法计算输出信号和输出功率谱,研究双稳态系统必备.-Random process of improving the code, using the Runge- Kutta algorithm to calculate the output signal and the output power spectrum of bistable systems essential.