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z4
- 摘 要:本文主要研究的是任意方向的匀速直线运动模糊图像的模糊方向判断算法,主要根据运动模糊降低了运动方向上图像的高频成 分,沿着运动方向实施高通滤波,可保证微分图像灰度值(绝对值)之和最小,论文中就是根据这种原理来判断出匀速运动模糊图像的运动 模糊方向,采用了3×3方向的微分乘子法来判断图像的运动模糊方向,从而可将图像的恢复问题转化为一维问题。-Abstract: This paper studies the direction of arbitrary uniform linear m
test
- 数值方法——euler法解决微分微分方程-euler s method for equations
solutionofPDE
- matlab求解偏微分方程的具体实现方法以实例操作。-matlab solving partial differential equations of the concrete implementation methods to instances of action.
PID
- PID(比例-积分-微分)控制器作为最早实用化的控制器已有50多年历史,现在仍然是应用最广泛的工业控制器。PID控制器简单易懂,使用中不需精确的系统模型等先决条件,因而成为应用最为广泛的控制器。 -PID CONTROLL
matlab_Programming_Theory
- 文档中有我们平常用的积分,微分,电磁力,作图的Matlab的理论知识与相关程序。是一个我们必学的文档。-In the document have our usual use of the integral, differential, electromagnetic force, the Matlab mapping the theoretical knowledge and related procedures. Is one we must study the document.
matlabchengxu
- 这是在计算微分方程时遇到扩散系数时的程序,很有效。-This is the calculation of partial differential equations encountered discrete diffusion coefficient of procedures, very effective.
Pdechengyu
- 较为详细地介绍了微分方程的概念以及数值解法,并提供具体的计算案例以及在matlab中的实现,并附有一定的源码,适合初学者参考学习-Based on MATLAB to generate Mackey-Glass time series. First definition of function, and then run the code WORD.
suspensiontext
- 基于微分几何的非线性汽车悬架主动控制[1],文章不错。-Based on differential geometry active control of nonlinear vehicle suspension [a], the article is true.
sift2
- 提出了一种基于线特征和SIFT点特征的多源遥感影像配准方法。该方法首先匹配待配准影像和参 考影像中的线特征,利用匹配直线构建虚拟角点 其次,针对传统SIFT算法匹配多源遥感影像特征点存在的 不足,采用线特征约束点特征的方法进行SIFT同名点对的提取 最后结合虚拟角点对及SIFT同名点对构建三角网进行小面元微分纠正。 -A line-based features and SIFT features multi-point sources of remote sensing image
SIFT3
- :对传统SIFT算法从特征点提取时间和匹配精度上进行了优化,基于优化算法提取的特征点对构建 三角网进行小面元微分纠正配准。试验结果表明,该方法是一种有效的遥感影像自动配准方法。 -: SIFT algorithm from the traditional feature extraction time and matching accuracy, and the optimization, optimization algorithm based on the extracted fea
Euler_equation
- 欧拉法接微分方程组的java源码,本人亲手编写的代码,效果不错-euler method code please input a double number k1: 0.12 please input a double number k2: 0.15 please input a integer number generation: 100 please input a double number a[0]: 1.19 please input a d
matlab2
- 这是学习matlab的经典课件的第二部分,第六到九章,包含微分方程求解、代数方程与最优化问题求解、概率论与数理统计问题求解、数学问题的非传统解法等等 -This is a classic learning courseware matlab second part of the sixth to nine chapters, including the differential equation solving, algebraic equations and optimization pr
Math
- 内含8个数学建模的实验报告:线性规划、插值、拟合、非线性规划、蒙特卡洛方法、微分方程、无约束优化、回归分析-Mathematical modeling includes 8 Experiment Report: linear programming, interpolation, fitting, linear programming, Monte Carlo method, differential equations, unconstrained optimization, regressi
BPnet
- 反向传播网络(Back-Propagation Network,简称BP网络)是将W-H学习规则一般化,对非线性可微分函数进行权值训练的多层网络 -Back Propagation Network (Back-Propagation Network, referred to as BP networks) is to learn the rules WH generalized, non-linear differentiable function on weight training m
LinearShootingMethod
- 打靶法的再解微分方程中的应用。主要用来处理边值问题。-Re-shooting method of solving differential equations. Mainly used to deal with boundary value problems.
LM
- 在处理光学问题中常用的LM方法,有助于用matlab解微分方程-Optical problems in dealing with the LM method commonly used to help with matlab for solving differential equations
ordinary-differential-equations
- 常微分方程部分,包括存在唯一性定理,线性微分方程组的一般理论-Part of ordinary differential equations, including existence and uniqueness theorem, the general theory of linear differential equations
odes
- 常微分方程在MATLAB中的使用和部分程序-How to compute Ordinary Differential Equations in MATLAB
pizd
- 1.采用微分先行PID控制实现对液位的控制。 2.采用增量式PI控制实现流量的快速跟踪,且波动范围较小。 3.采用经验方法分别对上述两个PID控制器参数进行整定。 -1. Using differential PID control to achieve the first level of control. 2. Using PI control to achieve incremental flow of fast-track, and the fluctuation small
runge-kutta
- 四阶龙格-库塔法求微分方程,通过实数编码方法实现简单易懂--Runge- Kutta Method to solve derivative Equations