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- A numerical solution of the 2D wave equation utt = β2 (uxx + uyy) is required over the region R in the x, y plane R = {(x, y)| 0 < x < a, 0 < y < b}-A numerical solution of the 2D wave equation utt = β2 (uxx+ uyy) is required over
Gauss_elimination
- Gauss Elimination Algorithm is used to solve linear equations in the form Ax=B, find rank of matrix and to find inverse of matrixes. The program is done in matlab platform.
OFDM_with_pilot
- In this Mfile, I want to investigate the performance of LSE algorithm in OFDM channel estimation with methods of equalizations like MRC and ZF. For further information see the "Xiaodong Cai and Georgios B. Giannakis, Error Probability Minimizing
gailvlunkechengsheji
- (一)目的:通过对常用的概率密度函数和分布函数的应用,达到熟练掌握概率密度函数和分布函数调用方法的目的。 (二)任务:对实际的案例进行分析,调用相应概率密度函数和分布函数,使用MATLAB软件计算其结果。 (三)要求:理解概率密度函数和分布函数,能够解决实际问题。 -(A) Purpose: used by the probability density function and distribution function of the application, to master
b
- 针对Z变换法无法求取相邻采样点之间的输出响应的局限,利用MATLAB程 序语言,对单位负反馈系统的改进z变换法进行了程序设计。通过simulink仿真的实验,证 明该程序运算快速、准确,使用方便。-For the Z transform method can not strike between adjacent sampling points in response to the limitations of the output, using MATLAB programming l
chazhi
- Language 求已知数据点的拉格朗日插值多项式 Atken 求已知数据点的艾特肯插值多项式 Newton 求已知数据点的均差形式的牛顿插值多项式 Newtonforward 求已知数据点的前向牛顿差分插值多项式 Newtonback 求已知数据点的后向牛顿差分插值多项式 Gauss 求已知数据点的高斯插值多项式 Hermite 求已知数据点的埃尔米特插值多项式 SubHermite 求已知数据点的分段三次埃尔米特插值多项式及其插值点处的值 SecSampl
feixianxing
- mulStablePoint 用不动点迭代法求非线性方程组的一个根 mulNewton 用牛顿法法求非线性方程组的一个根 mulDiscNewton 用离散牛顿法法求非线性方程组的一个根 mulMix 用牛顿-雅可比迭代法求非线性方程组的一个根 mulNewtonSOR 用牛顿-SOR迭代法求非线性方程组的一个根 mulDNewton 用牛顿下山法求非线性方程组的一个根 mulGXF1 用两点割线法的第一种形式求非线性方程组的一个根 mulGXF2 用两点割线法的第二
CordFitIdeal
- 坐标转换:已知n个点在a,b两坐标系中的坐标值,采用优化方法求转换关系(标准的7参数转换关系,x,y,z的移动,x,y,z的旋转,以及缩放系数)ps:附带空间旋转公式。input: points in A and B。 output:transfer relationship (u,v,w: shit of x,y,z。 a,b,g: rotate of x,y,z 。k:zoom)-Coordinate Transfer:A,B are tow coordinates. This progra
mpegprocessing
- 通过实验了解Mpeg1协议中的B帧编码方法以及Mpeg2协议P帧-帧场自适应预测编码-Mpeg1 agreement through experiments to understand the B-frame encoding method and the P frame Mpeg2 Agreement- Adaptive predictive coding frame field
Desktop
- 东北三省2009年数学建模的B题:丁克现象,已获联赛二等奖,现将论文以及Matlab源代码上传,希望对相关人员有所帮助。-Northeast B, Mathematical Modeling in 2009 Topic: DINK phenomenon, has been league second prize, papers, and now Matlab source code for uploading, hope relevant personnel be helpful.
permm
- From given order of rearrangement constructs the permutation matrix P and computes B = P *A*P-From given order of rearrangement constructs the permutation matrix P and computes B = P*A*P
3Dcurves
- 3D curves The zip file includes the following curves: a) Helical curves: - Circular helix (right helicoid). - Elliptical helix. - Conical helix. - Spherical helix. - n-Helix. b) Sine waves in three dimensions - Sine
Field_II_PC7_3
- 模拟B超的运行。模拟换能器、数据采样、噪声去除、成像-Simulated B-operation. Analog transducer, data acquisition, noise removal, imaging
art
- 用于解反问题的代数重建法,对于Ax=b,输入矩阵A,列向量b,以及迭代步数k,可求的列向量x-Algebraic solution of the inverse problem for the reconstruction of France, for Ax = b, the input matrix A, the column vector b, as well as the number of iterations k, rectifiable column vector x
LSQR
- 采用CG法求解稀疏不对称的Ax=b-Implementation of a conjugate-gradient type method for solving sparse linear equations and sparse least-squares problems: Solve Ax = b or minimize || Ax- b ||2 or minimize || Ax- b ||2+ d2 ||x||2. The matrix A may be squ
MINRES
- 采用CG法求解稀疏对称奇异矩阵得到的Ax=b-Implementation of a conjugate-gradient type method for solving sparse linear equations: Solve Ax = b or (A- sI)x = b. The matrix A- sI must be symmetric but it may be definite or indefinite or singular. The scalar s is a
New_Method_for_License_Plate_Recognition
- a.牌照定位,定位图片中的牌照位置; b.牌照字符分割,把牌照中的字符分割出来; c.牌照字符识别,把分割好的字符进行识别,最终组成牌照号码。 -a. License Plate Location, location location of the picture of the license b. Character Segmentation license to license the characters split up c. license character reco
DSP-c-Matlab-Programs-ManualV19
- 印度GURUNANAK ENGINEERING COLLEGE数字信号处理实验室的DSP+c+Matlab联合编程手册-DIGITAL SIGNAL PROCESSING LAB (IV-I SEM) INDEX 1. Architecture of DSP chips-TMS 320C 6713 DSP Processor 2. Linear convolution 3. Circular convolution 4. FIR Filter (LP/HP) Using Wi
leastsquareellipse
- 至少输入五个点,得到最小二乘模拟椭圆,最后得到椭圆左右焦点以及主轴与x轴夹角等具体参数-[Xc,Yc,A,B,Phi,P]=ELLIPSEFIT(X,Y) finds the least squares ellipse that best fits the data in X and Y. X and Y must have at least 5 data points. Xc and Yc are the x- and y-axis center of the ellipse re
109201
- file matlab This paper reports on two particular aspects of the project and provides, (a) some results from pedestrian responses to surveys conducted during bridge excitation tests, and (b) proposals for future codification models. Further details