代码搜索:matlab
找到约 10,000 项符合「matlab」的源代码
代码结果 10,000
www.eeworm.com/read/152112/12139094
m lspoly.m
function C = lspoly(X,Y,M)
%Input - X is the 1xn abscissa vector
% - Y is the 1xn ordinate vector
% - M is the degree of the least-squares polynomial
% Output - C is the coefficient l
www.eeworm.com/read/152112/12139149
m diffnew.m
function [A,df]=diffnew(X,Y)
%Input - X is the 1xn abscissa vector
% - Y is the 1xn ordinate vector
%Output - A is the 1xn vector containing the coefficients of the Nth
% degree Ne
www.eeworm.com/read/340467/12155793
m contents.m
% FastICA for Matlab 7.x and 6.x
% Version 2.5, October 19 2005
% Copyright (c) Hugo G鋠ert, Jarmo Hurri, Jaakko S鋜el
www.eeworm.com/read/151751/12177390
m 3-3.m
h=figure;
f = uimenu(h,'Label','MATLAB工作间');
uimenu(f,'Label','新窗口','Callback','figure');
uimenu(f,'Label','保存','Callback','save');
h1=uimenu(f,'Label','清除');
uimenu(h1,'Label','清楚变量','callback',
www.eeworm.com/read/151608/12187926
c engexam.c
#include
#include
#include
#include "engine.h"
int PASCAL WinMain (HANDLE hInstance,
HANDLE hPrevInstance,
LPSTR lpszCmdLine,
int nCm
www.eeworm.com/read/151608/12187956
m exm1273_1.m
%exm1273_1.m
!md d:\mywork
cd d:\mywork
ss=char(which('engexam.c','-all'));
dos(['copy ',ss,' d:\mywork']);
mex -f h:\matlab\bin\bccengmatopts.bat engexam.c
!engexam
!del engexam.c
www.eeworm.com/read/151608/12188146
c my_yprime.c
/*=================================================================
*
* YPRIME.C Sample .MEX file corresponding to YPRIME.M
* Solves simple 3 body orbit problem
*
* The calling synt
www.eeworm.com/read/151561/12200764
m a34.m
t=0:0.2:10;
y1=sin(t);
y2=cos(t);
plot(t,y1,'g-.*',t,y2,'m:o')
xlabel('X轴(0~10)')
ylabel('Y轴')
title('正弦和余弦曲线图')
text(0,-0.7,['绘图日期:',date])
text(0,-0.9,['MATLAB版本:',version])
legend('Sin Wav
www.eeworm.com/read/151561/12201108
m a26.m
t=0:0.5:10;
y1=sin(t);
y2=cos(t);
plot(t,y1,'b:o',t,y2,'m-.*')
xlabel('X轴(0~10)')
ylabel('Y轴')
title('正余弦曲线图')
text(pi,0,['\leftarrowsin(\pi)=','0'])
text(3*pi/2,0,['\leftarrowcos(3*\pi/2)=','
www.eeworm.com/read/151556/12201307
m euler.m
function E=euler(f,a,b,ya,M)
%Input - f is the function entered as a string 'f'
% - a and b are the left and right endpoints
% - ya is the initial condition y(a)
% - M is the n