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说明: 一些基本的Matlab动画程序,可以使初学者了解动画程序的应用。(Some basic Matlab animation program that allows beginners to understand the application of animation process.)
- 2009-01-01 13:05:03下载
- 积分:1
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histo_Y_100000
enjoy matlab histogram ploting
- 2009-04-01 11:20:51下载
- 积分:1
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MATLAB_6_5_BOOKS
MATLAB的一本教材.很系统全面,可以作为学习提纲.(MATLAB in a textbook. A very systematic and comprehensive, can serve as a study outline.)
- 2010-02-07 14:44:31下载
- 积分:1
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pattern-classification-matlab-tool
模式分类这本书的被套的工具书,包含有各种分类的算法的MATLAB的代码实现,《Computer+Manual+in+MATLAB+to+Accompany+Pattern+Classification+2nd+Edition》(pattern recognition and useness with matlab code tools)
- 2011-07-01 11:46:44下载
- 积分:1
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Data-association-
三被动雷达交叉定位,去除鬼影点和杂波,点点关联概率达到8成以上。(remove noise wave;
remove false intersection points ;
Data association 。
)
- 2012-11-24 08:36:10下载
- 积分:1
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XBPHfzz
谐波平衡,可以求解DUFFING方程等非线性动力学系统,并可以求解二阶微分方程(The harmonic balance can be solved by the nonlinear dynamical systems such as DUFFING equation, and can be solved by two order differential equations)
- 2015-05-29 22:09:32下载
- 积分:1
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dijkstra
calculates the shortest path and distance between two nodes on a map
- 2007-08-14 11:08:56下载
- 积分:1
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fangzhen
实验一 双极性矩形随机信号的归一化功率谱密度一
1.1 功率谱密度简介
平稳过程的任何一个非零样本函数的持续时间为无限长,显然都不满足绝对可积和总能量有限的条件。因此,它的傅里叶变换不存在即没有频谱函数。所以我们用功率谱密度来表述其频谱特性。
随机过程的任一实现是一个确定的功率型信号。而对于任意的确定功率信号f(t),它的功率谱密度为:
式中, 是f(t)的截短函数 对应的频谱函数。f(t)是平稳随机过程 的一个实现。而随机过程某一个实现的功率谱密度不能作为过程的功率谱密度。过程的功率谱密度应该看作是任一实现的功率谱密度的统计平均,即
虽然该式给出了平稳随机过程的功率谱密度,但我们通常都不利用这个式子来计算功率谱。我们知道,确知的非周期功率信号的自相关函数与功率谱密度是一对傅里叶变换。对于平稳随机过程,也有类似的关系,即
和
对于平稳随机过程我们通常先求出其自相关函数再利用上式求出其功率谱密度。
1.2 实验要求
1.了解平稳随机信号功率谱的概念及计算方法
2.仿真不同占空比,等概、非等概双极性矩形随机信号的归一化功率谱密度
3.分析不同信号所包含的频谱分量,有无直流分量和定时分量信息
(A pair of rectangular random experiment polarity signal sample return a nonzero function of any duration power spectral density of a 1.1 power spectral density of a stationary process Introduction of infinite length, apparently not satisfied absolutely integrable and the total energy of the limited conditions. Therefore, it is the Fourier transform of the spectrum that does not function does not exist. Therefore, we use the power spectral density to express their spectral characteristics. Any random process is a realization of a certain type signal power. For arbitrarily determined power signal f (t), its power spectral density is: wherein, is f (t) is a function corresponding to the truncated spectrum function. f (t) is a stationary random process of realization. The random process to achieve a certain power spectral density can not serve as the power spectral density of the process. Power spectral density process should be seen as a statistical average power spectral density of any r)
- 2014-11-30 20:39:29下载
- 积分:1
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Desktop
Codes related to electrical machine.
- 2015-01-07 12:35:38下载
- 积分:1
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demoinstrsl_udpcommunication
matlab exam nbgf vcdse nhg with yui kil open nhf
- 2013-01-07 16:24:18下载
- 积分:1
