代码搜索:M
找到约 10,000 项符合「M」的源代码
代码结果 10,000
www.eeworm.com/read/117862/14901203
gif m-m.gif
www.eeworm.com/read/218485/14918993
m m_sequence.m
N=127; %周期为N=127
a=2; % 序列的幅值
ndp=254*2; %输出的点数,如果ndp=254说明两个周期的m序列
for(i=1:7)
SH(i)=2*a;
end
for(i=1:ndp)
s=SH(7)+SH(4);
if(s>3*a)
s=0.0;
end
for(j=2:7)
www.eeworm.com/read/216263/15022229
m dct_m.m
function x1=dct_m(N,k)
% 调出信号 noissin;
load noissin;
x=noissin(1:N);
y=zeros(size(x));
% 对该信号作DCT;
for i=1:N
if rem(i,8)==0
y(i-8+1:i)=dct(x(i-8+1:i));
y(i-k+1:i)=0;
www.eeworm.com/read/216263/15022512
m freqz_m.m
function[db,mag,pha,grd,w]=freqz_m(b,a)
%滤波器幅值响应(绝对、相对)、相位响应及群延迟
%Usage: [db,mag,pha,grd,w]=freqz_m(b,a) %500点对应[0,pi]
%db 相对幅值响应;mag 绝对幅值响应;pha 相位响应;grd 群延迟响应
%w 采样频率;b 系统函数H(z)的分子项(对FIR,b=h)
www.eeworm.com/read/216263/15022545
m latcfilt_m.m
function [y]=latcfiltm(K,x);
%y=输出序列
%K=格型结构滤波器的系数矩阵
%x=输入序列
Nx=length(x)-1;
M=length(K)-1;K=K(2:M+1);
fg=[x;[0 x(1:Nx)]];
for m=1:M
fg=[1,K(m);K(m),1]*fg;
fg(2,:)=[0 fg(2,1:Nx)];
end
www.eeworm.com/read/213240/15140061
m m_paths.m
function [l,p] = m_paths(A,n)
% [l,p] = m_paths(A,n)
%
% n paths, with maximum length, in a graph which is
% described by an adjacency matrix A
%
% INPUT
% A weighted adjacency matrix
%
% OUTPUTS
www.eeworm.com/read/212223/15162759
m m5666666666666666.m
% MATLAB M-file m5.m is for Project 5 on
% self-controlled permanent magnet motor drive of Chapter 10
% updated a change in Matlab function minimization routine on Sept 16, 2003
% m5.m is to b
www.eeworm.com/read/211300/15183105
m conv_m.m
function [y,ny] = conv_m(x,nx,h,nh)
% 信号处理的改进卷积程序
% --------------------------------------------------
% [y,ny] = conv_m(x,nx,h,nh)
% y = 卷积结果
% ny = y 的基底(support)
% x =基底 nx 上的第一个信号
% nx =
www.eeworm.com/read/211300/15183128
m freqz_m.m
function [db,mag,pha,grd,w] = freqz_m(b,a);
% freqz 子程序的改进版本
% ------------------------------------
% [db,mag,pha,grd,w] = freqz_m(b,a);
% db = [0 到pi弧度]区间内的相对振幅(db)
% mag = [0 到pi弧度]区间内的绝对振幅
www.eeworm.com/read/211300/15183137
m freqs_m.m
function [db,mag,pha,w] = freqs_m(b,a,wmax);
% s域频率响应计算的改进版本-
% ------------------------------------------------------------
% [db,mag,pha,w] = freqs_m(b,a,wmax);
% db = [0 to wmax]区间内的相对振幅
%