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hosa
- HOSA高阶谱 能实现双谱 三谱 等高阶谱的运算-higher order spectrum
COV-and-LCR-mathematics
- 仿真程序共分5个模块: 1.平坦衰落信道仿真 2.LCR法仿真 3.COV法仿真 4.信号功率谱估计 5.高阶谱矩法仿真 经典的多普勒估计算法-The simulation program is divided into five modules: 1. flat fading channel simulation simulation simulation method 2.LCR signal power spectrum estimation 4. 5. highe
ordinary-differential-equation
- 本次课程设计中,主要讨论了常微分方程的初值问题数值解法。文章主要分3大块,分别是:1.简单介绍几种常微分方程的初值问题数值解的求法,给出其算法流程图和相应matlab程序。2.通过运用典型的数值解法如Eulor方法,改进Eulor方法,Runge-Kutta方法求解具体常微分方程并分析对比方法收敛阶、稳定性。3.进一步去用以上三种方法求解Lotka-Volterra方程,分析食饵与捕食者模型,得出相关结论。-The curriculum design, focused on the numeri
sijielungekutao
- 这是一个四阶龙格库塔的C++源码,供大家学习-This is a fourth-order Runge-Kutta of C++ source.
implicit_fde_5_7
- 时间分数阶方程隐式格式 运用此格式来解方程-Implicit format time fractional order equation,Use this format to solving equations
21
- 利用四阶的龙格库塔法求解一阶微分方程组。-Fourth-order Runge-Kutta method for solving one-order differential equations
WCECS2007_pp855-858
- Abstract—The proportional integral derivative (PID) controller is the most widely used control strategy in industry. The popularity of PID controllers can be attributed partly to their robust performance in a wide range of operating conditions
xianxingdabafa
- 利用线性打靶法计算变系数的微分方程,并画图-The second- order differential equation with variable coefficient is solved by linear target method, and the content is detailed
asxzee
- 设计最小二乘逆滤波器求解反卷积问题,假设有观测噪声,为降低观测噪声的影响-Design least-square deconvolution problem solving inverse filter, assume that the observation noise, in order to reduce the effects of observation noise