代码搜索:IP
找到约 10,000 项符合「IP」的源代码
代码结果 10,000
www.eeworm.com/read/303558/13812540
m ip_05_08.m
% MATLAB script for Illustrated Problem 5.8.
clear
echo on
SNRindB1=0:1:12;
SNRindB2=0:0.1:12;
for i=1:length(SNRindB1),
% simulated error rate
smld_err_prb(i)=smldpe58(SNRindB1(i
www.eeworm.com/read/303558/13812545
m ip_01_07.m
% MATLAB script for Illustrative Problem 7, Chapter 1.
clear
echo on
df=0.01; % freq. resolution
fs=5; % sampling frequency
ts=1/fs;
www.eeworm.com/read/303558/13812546
m ip_08_06.m
% MATLAB script for Illustrative Problem 8.6.
clear
echo on
p_db=[-20:1:20];
np_db=p_db;
p=10.^(p_db/10);
np=p;
for i=1:41
for j=1:41
c(i,j)=0.5*log2(1+p(i)/np(j));
echo off ;
www.eeworm.com/read/303558/13812550
m ip_02_09.m
% MATLAB script for Illustrative Problem 2.9.
clear
N=1000; % The maximum value of n
M=50;
Rxav=zeros(1,M+1);
Ryav=zeros(1,M+1);
Sxav=zeros(1,M+1);
Syav=zeros(1,M+1);
f
www.eeworm.com/read/303558/13812551
asv ip_07_09.asv
% MATLAB script for Illustrative Problem 9, Chapter 7.
clear
echo on
K=10;N=2*K;T=100;
a=rand(1,36);
a=sign(a-0.5);
b=reshape(a,9,4);
% Generate the 16QAM points
XXX=2*b(:,1)+b(:,2)+j*(2*b(:,3
www.eeworm.com/read/303558/13812552
m ip_01_01.m
% MATLAB script for Illustrative Problem 1, Chapter 1.
clear
n=[-20:1:20];
x=abs(sinc(n/2));
stem(n,x);
www.eeworm.com/read/303558/13812554
m ip_08_10.m
% MATLAB script for Illustrative Problem 8.10.
clear
[p_err_ha,gamma_b]=p_e_hd_a(10,16,11,15,3);
semilogy(gamma_b,p_err_ha)
www.eeworm.com/read/303558/13812555
m ip_07_10.m
% MATLAB script for Illustrative Problem 10, Chapter 7.
clear
echo on
K=10;N=2*K;T=100;variance=1;
noise=sqrt(variance)*randn(1,N);
a=rand(1,36);
a=sign(a-0.5);
b=reshape(a,9,4);
% Generate th
www.eeworm.com/read/303558/13812557
m ip_07_11.m
% MATLAB script for Illustrative Problem 11, Chapter 7
clear
echo on
num=[0.01 1];
den=[1 1.01 1];
[a,b,c,d]=tf2ss(num,den);
dt=0.01;
u=ones(1,2000);
x=zeros(2,2001);
for i=1:2000
x(:,i+1)
www.eeworm.com/read/303558/13812561
m ip_04_08.m
% ip_04_08.m Illustrative Problem 4.8
clear
echo on;
n=10;
tol=1e-6;
p1=0;
p2=1;
b=10*p2;
[a,y,dist]=lloydmax('normal',b,n,tol,p1,p2);