搜索资源列表
IDPDENS1
- 用差分方法求解沃尔泰拉方程,此处为一个变元的方程,由于该方程同时含有微分和积分,一般求解有一定的困难。-use of the finite difference method for Volterra equation here as a variable element of the equation, As the same time contain differential equations and integral, the general solution is definitely
YXL1
- 用差分方法求解沃尔泰拉方程,此处为一个变元的方程,由于该方程同时含有微分和积分,一般求解有一定的困难。-use of the finite difference method for Volterra equation here as a variable element of the equation, As the same time contain differential equations and integral, the general solution is definitely
YXLA
- 用差分方法求解沃尔泰拉方程,此处为一个变元的方程,由于该方程同时含有微分和积分,一般求解有一定的困难。-use of the finite difference method for Volterra equation here as a variable element of the equation, As the same time contain differential equations and integral, the general solution is definitely
YXLS
- 用差分方法求解沃尔泰拉方程,此处为一个变元的方程,由于该方程同时含有微分和积分,一般求解有一定的困难。-use of the finite difference method for Volterra equation here as a variable element of the equation, As the same time contain differential equations and integral, the general solution is definitely
emap1
- 计算电磁学的3维变分标量有限元方法程序。EMAP1 employs a variational formulation。
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
c6_nltvde
- 简单举一个非线性的时变系统仿真的例子它以两个未分方程为基础-To put it simply a time-varying nonlinear system simulation example of its two sub-equations are not based on
poly_svm
- 核函数是利用支持向量机解决不可分问题时引入的一种非线性变换的手段。基本思想是通过非线性变换,使样本变换之后的特征空间中变得线性可分。然后利用线性可分时构造最优超平面的方法,在特征空间中实现最优超平面的求解。-Kernel function is the use of support vector machine to resolve the issue can not be separated from the introduction of a nonlinear transform mean
youxianyuanfangfa
- 基于FEPG的有限元方法.FEPG系统是基于虚位移原理(即弱形式)而不是变分原理,要求用户书写弱形式的微分方程表达式-FEPG Based on the finite element method. FEPG system is based on the principle of virtual displacement (ie, weak form) rather than the variational principle, require users to write the weak f
Tutorial_Modeling
- 建模教程 包含变分法,层次分析法,整数规划,图与网格等 附带MATLAB简介-Modeling Tutorial contains variational method, the level of analysis, integer programming, such as map and attached to the grid MATLAB Introduction
optimization
- 许多生产计划与管理问题都可以归纳为最优化问题, 最优化模型是数学建模中应用最广泛的模型之一,其内容包括线性规划、整数线性规划、非线性规划、动态规划、变分法、最优控制等. -matlab matlab matlab matlab optimization
TheAnalyticalSolutionofTPBVP
- 在最优控制、变分法、微分方程等学科中常遇到两点边值问题( TPBVP ),徒手求取解析 解比较繁;MATLAB 的符号数学工具箱却又仅限于解一点边值问题。本示例阐述如何用符 号数学工具箱解 TPBVP。-In optimal control,variational calculus and differential equation frequently encountered two-point boundary value problems(TPBVP).Free-hand to g
v
- 变分方法及其应用,在研究偏微分方程的应用前,先看看其基础理论,对于代码的具体实现以及公式推导都会有帮助-Variational method and its application, the application of partial differential equations in the study before the first look at its basic theory, for the specific implementation code and the formula
Mathematical-Theory-of-FEM
- 《有限元方法的数学理论》中不但提供有限元法系统的数学理论。还兼重在工程设计和分析中的应用算法效率、程序开发和较难的收敛问题。目次:基本概念;Sobolev空间;椭圆边界值问题变分公式;有限元空间结构;Sobolev空间中的多项式近似理论.n维变分问题;有限元多栅法;加性Schwarz预条件; 极大范数估计;自适应网格; 变分病态、在平面弹性力学中的应用;混合法;迭代技巧用于混合法;算子插值理论的应用。读者对象;数学、物理和工程专业的研究生和技术人员。-" The mathematical
6.5M2
- 偏微分方程的数值解法,简单的离散 变分以及求解过程-Numerical solution of partial differential equations, the simple and the solution process of discrete variational
sisal_demo
- 高光谱解混合方法,变分增强拉格朗日线性解混合方法。-A Variable splitting Augmented Lagragian Approach to Linear Spectral Unmixing
vbgm
- 变分高斯多模态模型,可以应用于过程监控,故障检测-varitional infinite Gaussian mixture model
meto_1dvar_3_3.tar
- 用以执行卫星资料的一维变分反演程序,主要采用fortran程序编写!-This a fortran program for 1 dimensional variational retrieval froam satellite
ADM
- 交替方向法(ADM)是求解结构型单调变分不等式问题最经典有效的方法, 它是通过交替的求解一系列低维子问题来得到原问题的解的一种分离方法。-Alternating direction method is an effective method for solving structured monotone variational inequalities. It is a decomposition method to obtain the solution of the original
pyVMD_any
- 变分模态分解的python版本,个人根据MATLAB版本译制而成(Python version of variational mode decomposition)