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ebzmsnzw
- 使用大量的有限元法求解偏微分方程,三相光伏逆变并网的仿真,有信道编码,调制,信道估计等,可以动态调节运行环境的参数,基于分段非线性权重值的Pso算法。- Using a large number of finite element method to solve partial differential equations, Three-phase photovoltaic inverter and network simulation, Channel coding, modulation,
divesrpu
- gmcalab 快速广义的形态分量分析,旋转机械二维全息谱计算,直线阵采用切比学夫加权控制主旁瓣比,使用大量的有限元法求解偏微分方程,基于分段非线性权重值的Pso算法。-gmcalab fast generalized form component analysis, Rotating machinery 2-d holographic spectrum calculation, Linear array using cut than learning laid upon the right c
jdg_V3.2
- 部分实现了追踪测速迭代松弛算法,使用大量的有限元法求解偏微分方程,仿真效率很高的,基于分段非线性权重值的Pso算法,数值分析的EULER法,有借鉴意义哦,GPS和INS组合导航程序。- Partially achieved tracking speed iterative relaxation algorithm, Using a large number of finite element method to solve partial differential equations, High
sqyfta
- 有CDF三角函数曲线/三维曲线图,基于分段非线性权重值的Pso算法,使用大量的有限元法求解偏微分方程,利用贝叶斯原理估计混合logit模型的参数。- There CDF trigonometric curve/3D graphs, Based on piecewise nonlinear weight value Pso algorithm, Using a large number of finite element method to solve partial differential e
secondoderrk4
- matlab 求解二阶微分方程例子演示,二阶非线性微分方程;x’’+x^3/(1+x^2)=0 初始条件 x(0)=A x’(0)=0-second order runge-kutta
maonai
- 使用大量的有限元法求解偏微分方程,本科毕设要求参见标准测试模型,关于非线性离散系统辨识。- Using a large number of finite element method to solve partial differential equations, Undergraduate complete set requirements refer to the standard test models, Nonlinear discrete system identification.
NLS
- 非线性薛定谔方程的数值求解,并计算脉冲的展宽-Numerical solution of nonlinear Schrodinger equation, and the broadening of the pulse is calculated.
PSOPT_Manual_R3
- PSOPT是以C++编写的开源的最优控制软件包,它采用直接配置法。这些方法求解最优控制问题,是使用全局或局部多项式来逼近随时间变化的各种变量,这就可以将微分方程和连续约束离散化,并可用众所周知的数值求积公式来计算与最优控制问题有关的任何积分,然后,非线性规划就可被用于求解局部最优解。-PSOPT is an open source optimal control package written in C++ that uses direct collocation methods. Thes
SSFT
- 短时傅里叶变换,用于求解非线性薛定谔方程-Short-time Fourier transform, is used for solving the nonlinear schrodinger equation
fig2_MSOM
- msom求解非线性偏微分方程,对应Universally-Convergent Squared-Operator Iteration Methods for Solitary Waves in General Nonlinear Wave Equations 这篇论文-msom solve Nonlinear Wave Equations on Universally-Convergent Squared-Operator Iteration Methods for Solitary W
fig2_PCSOM
- PCSOM求解非线性偏微分方程,对应Universally-Convergent Squared-Operator Iteration Methods for Solitary Waves in General Nonlinear Wave Equations 这篇论文-PCSOM solve Nonlinear Wave Equations,on Universally-Convergent Squared-Operator Iteration Methods for Solitary Wav
fig2_SOM
- SOM求解非线性偏微分方程,对应Universally-Convergent Squared-Operator Iteration Methods for Solitary Waves in General Nonlinear Wave Equations 这篇论文-SOM solve Nonlinear Wave Equations,on Universally-Convergent Squared-Operator Iteration Methods for Solitary Waves i
henmen
- 使用大量的有限元法求解偏微分方程,基于分段非线性权重值的Pso算法,人脸识别中的光照处理方法。- Using a large number of finite element method to solve partial differential equations, Based on piecewise nonlinear weight value Pso algorithm, Face Recognition light treatment method.
MATLAB_numerical-analysis
- MATLAB三次样条插值法 求信号的包络线 源代码 MATLAB使用欧拉Euler法求解微分方程组 源程序代码 MATLAB四阶龙格库塔法 求解微分方程数值解 源程序代码 MATLAB实现txt文本数据分离的源程序代码 MATLAB实现不同插值方法的GUI界面设计 源程序代码 MATLAB实现偏微分方程的差分计算 源程序代码 MATLAB实现单摆在外力矩作用下的动画 源程序代码 MATLAB实现图像中值 均值 维纳滤波 源程序代码 MATLAB实现图像分割otsu
tiepie
- 采用偏最小二乘法,使用大量的有限元法求解偏微分方程,关于非线性离散系统辨识。- Partial least squares method, Using a large number of finite element method to solve partial differential equations, Nonlinear discrete system identification.
banheng_v48
- DC-DC部分采用定功率单环控制,关于非线性离散系统辨识,使用大量的有限元法求解偏微分方程。- DC-DC power single-part set-loop control, Nonlinear discrete system identification, Using a large number of finite element method to solve partial differential equations.
FETK
- 有限元工具(FETK)是一个合作开发的、自适应有限元法(AFEM)软件库的集合、用于求解耦合系统的非线性几何偏微分方程(PDE)的工具。-The finite element tool (FETK) is a cooperative development of the adaptive finite element method (AFEM) software library, which is used to solve the nonlinear geometric partial dif
iewef3
- 非线性偏微分方程用不同差分格式求解两种TVD格式,很好-Nonlinear partial differential equations with different difference scheme to solve the two kinds of TVD format, is very good
New-procedure
- 时间方向利用龙格库塔方法,空间方向利用中心差分方法求解随机非线性薛定谔方程-Stochastic Schrodinger equation with finite difference methods in temporal and spatial direction
demoparm
- 为解决传统方法在求解非线性振动系统同(异)宿分岔问题过于复杂的问题,以双曲函数摄动法为基础,通过解析非线性振动系统派生方程,再对得出的解析解进行摄动得到最终解析式,提出了计算非线性振动系统同(异)宿轨道解析式更加有效的方法,简化了现有方法求解的复杂性.(picture for heterobifurcation)