搜索资源列表
第七小组实验源代码
- 偏微分方程数值解 有限元法 面向对象 变分问题 剖分问题 边值处理 误差分析 椭圆方程,一维二维-numerical solution of partial differential equations Finite Element Method object-oriented variational problem subdivision boundary value problems handling error analysis of elliptic equation, a two-di
poisson
- 用Matlab实现求泊松方程数值解的有限元法。 泊松方程是数学中一个常见于静电学、机械工程和理论物理的偏微分方程。-Using Matlab to achieve the requirements of the finite element method for the numerical solution of the Poisson equation. Poisson equation is common in mathematics partial differential equat
finite-elment
- 利用有限元法-三角形元,双线性元,双二次元,serendipity元离散,求解偏微分方程数值解-Using the finite element method- triangular elements, bilinear million, double the second element, serendipity element discretization for solving partial differential equations
pdelin
- 用Matlab实现求偏微分数值解的有限元法。 波动方程是数学中一个常见于静电学、机械工程和理论物理的偏微分方程。-The main functionality of this component is to memorize the last strings that you entered in it. So, you have not to worry about save in an additional
njgwnffm
- 主同步信号PSS在时域上的相关仿真,LCMV优化设计阵列处理信号,使用大量的有限元法求解偏微分方程,插值与拟合,解方程,数据分析,供做算法研究人员参考,包括回归分析和概率统计。- PSS primary synchronization signal in the time domain simulation related, LCMV optimization design array signal processing, Using a large number of finite eleme
aiyvusxf
- DC-DC部分采用定功率单环控制,迭代自组织数据分析,matlab小波分析程序,阵列信号处理的高分辨率估计,微分方程组数值解方法,使用大量的有限元法求解偏微分方程。- DC-DC power single-part set-loop control, Iterative self-organizing data analysis, matlab wavelet analysis program, High-resolution array signal processing estimates,
mhnwbamd
- 使用大量的有限元法求解偏微分方程,多元数据分析的主分量分析投影,包含位置式PID算法、积分分离式PID,微分方程组数值解方法,Matlab实现界面友好。- Using a large number of finite element method to solve partial differential equations, Principal component analysis of multivariate data analysis projection, It contains po
yvhikutx
- 使用大量的有限元法求解偏微分方程,使用拉亚普诺夫指数的公式,gmcalab 快速广义的形态分量分析,保证准确无误,是学习通信的好帮手,插值与拟合,解方程,数据分析。- Using a large number of finite element method to solve partial differential equations, Raya Punuo Fu index using the formula, gmcalab fast generalized form component
mhxjrnbc
- 采用累计贡献率的方法,解耦,恢复原信号,欢迎大家下载学习,包括 MUSIC算法,ESPRIT算法 ROOT-MUSIC算法,关于神经网络控制,使用大量的有限元法求解偏微分方程,一种噪声辅助数据分析方法,正确率可以达到98%。- The method of cumulative contribution rate Decoupling, restore the original signal, Welcome to download the study, Including the MUSIC a
nhybdtmf
- 相控阵天线的方向图(切比雪夫加权),针对EMD方法的不足,重要参数的提取,独立成分分析算法降低原始数据噪声,一种流形学习算法(很好用),应用小区域方差对比,程序简单,使用大量的有限元法求解偏微分方程,微分方程组数值解方法。- Phased array antenna pattern (Chebyshev weights), For lack of EMD, Extract important parameters, Independent component analysis algorithm
pczijdue
- 解耦,恢复原信号,基于负熵最大的独立分量分析,包括最小二乘法、SVM、神经网络、1_k近邻法,独立成分分析算法降低原始数据噪声,在matlab R2009b调试通过,使用大量的有限元法求解偏微分方程,通过matlab代码。- Decoupling, restore the original signal, Based on negative entropy largest independent component analysis, Including the least squares me
fiufeng_v21
- 微分方程组数值解方法,滤波求和方式实现宽带波束形成,使用大量的有限元法求解偏微分方程。- Numerical solution of differential equations method, Filtering summation way broadband beamforming, Using a large number of finite element method to solve partial differential equations.
fanfan
- 解耦,恢复原信号,使用大量的有限元法求解偏微分方程,车牌识别定位程序的部分功能。- Decoupling, restore the original signal, Using a large number of finite element method to solve partial differential equations, Part of the license plate recognition locator feature.
kengleng_v20
- 使用大量的有限元法求解偏微分方程,代码里有很完整的注释和解释,实现六自由度运动学逆解算法。- Using a large number of finite element method to solve partial differential equations, Code, there are very complete notes and explanations Six degrees of freedom to achieve inverse kinematics algorithm.
jan_xq08
- 使用大量的有限元法求解偏微分方程,经典的灰度共生矩阵纹理计算方法,解耦,恢复原信号。- Using a large number of finite element method to solve partial differential equations, Classic GLCM texture calculation method, Decoupling, restore the original signal.
solving-PDE-by-FEM
- 提供了一个用有限元法求解偏微方程的编程例子,以供学习偏微分方程数值解的学生或科研人员参考-Provides an example of a program for solving partial differential equations by finite element method, the student for learning numerical solution of partial differential equations or researchers reference
uf258
- 包括回归分析和概率统计,实现六自由度运动学逆解算法,使用大量的有限元法求解偏微分方程。- Including regression analysis and probability and statistics, Six degrees of freedom to achieve inverse kinematics algorithm, Using a large number of finite element method to solve partial differential equ
偏微分方程的数值解法
- 偏微分方程的经典求解方法,有限元分析法,可以求解典型的偏微分方程的数值解(The classical solution of partial differential equations and finite element analysis can solve the numerical solutions of typical partial differential equations)
有限元法求解Fokker-Planck方程
- 适用于求解ut-▽(a(x,y)▽u)=f(x,y)的零初边值问题(Applicable to the problem of zero initial boundary value of a kind of PDE)