代码搜索:光信号检测
找到约 10,000 项符合「光信号检测」的源代码
代码结果 10,000
www.eeworm.com/read/350382/10746027
m 7-13.m
%例程7-13自适应陷波滤波器
%自适应陷波器仿真
clear all
clc
N=400; %总采样长度
t=0:N-1;
s=sin(2*pi*t/20); %原始正弦信号
A=0.5; %干扰信号的幅值
fai=pi/3; %干扰
www.eeworm.com/read/465305/7052941
m xindianzyj.m
clear all
close all;
load('E:\2008.9.9\信号处理\心电信号\xindian1.txt');
y=xindian1(:,1);
n=(1:size(y))';
figure(1);
hold on
y=y(1:1:1000);
n=n(1:1:1000);
plot(y,n);
figure(2);
wn=0.3;
N=
www.eeworm.com/read/456976/7335979
txt mt8880.txt
/**************************************************************************************/ MT8880相关程序
sbit DTMFOK = P3^4; //DTMF转换完成信号,中断方式,
INT1 sbit HZ450OK = P3^2; //450Hz话线信号,用来识别忙音等
sbit CS888
www.eeworm.com/read/327991/7532436
m program_13_04.m
% 产生信号,设置阈值
t = linspace(0,1,100);
y = 0.8*sin(2*pi*t);
subplot(1,3,1),plot(y);
title('原始信号'),grid on;
thr = 0.4;
% 进行硬阈值处理
ythard = wthresh(y,'h',thr);
subplot(1,3,2),plot(ythard );
title(
www.eeworm.com/read/448089/7540740
m xiaowei.m
%DTMF课程设计仿真研究
%DTMF信号的产生
%方法1:数字正弦波合成的方法产生DTMF信号
close all; %closes all the open figure windows.
clear; %Clear command window.
hg=0;
m=0;
global noise
noise=0.2; %高斯白噪声方差
%====
www.eeworm.com/read/447711/7546315
m program_13_04.m
% 产生信号,设置阈值
t = linspace(0,1,100);
y = 0.8*sin(2*pi*t);
subplot(1,3,1),plot(y);
title('原始信号'),grid on;
thr = 0.4;
% 进行硬阈值处理
ythard = wthresh(y,'h',thr);
subplot(1,3,2),plot(ythard );
title(
www.eeworm.com/read/444759/7607498
m 7-13.m
%例程7-13自适应陷波滤波器
%自适应陷波器仿真
clear all
clc
N=400; %总采样长度
t=0:N-1;
s=sin(2*pi*t/20); %原始正弦信号
A=0.5; %干扰信号的幅值
fai=pi/3; %干扰
www.eeworm.com/read/434873/7800609
v fangbo.v
//方波产生模块:fangbo.v
`timescale 1ns/1ns
module fangbo(clk,address,qfangbo);
input clk; //系统时钟
input [9:0]address; //10位地址输入信号
output [8:0] qfangbo; //输出方波幅度信号
reg[8:0] q
www.eeworm.com/read/198492/7933048
asv xa.asv
%利用fft实现高斯序列的傅氏变换
function xa(p,q)
n=0:15;
x=exp(-1*(n-p).^2/q);
subplot(2,1,1);stem(x);title('信号图形');
subplot(2,1,2);stem(abs(fft(x)));title('信号频谱');
www.eeworm.com/read/198492/7933049
m xa.m
%利用fft实现高斯序列的傅氏变换
function xa(p,q)
n=0:15;
x=exp(-1*(n-p).^2/q);
subplot(2,1,1);stem(x);title('信号图形');
subplot(2,1,2);stem(abs(fft(x)));title('信号频谱');