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

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热门代码: main.c GPIO I2C SPI UART timer interrupt ADC PWM LED
www.eeworm.com/read/256069/12029765

m gmsk.m

%绘制调制波形00101010 clear all; Ts=1/16000; %基带信号周期为1/16000s,即为16KHz Tb=1/32000; %输入信号周期为Ts/2=1/32000s,即32KHz BbTb=0.5; %取BbTb为
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www.eeworm.com/read/256069/12029769

asv gmsk.asv

%绘制调制波形10110001 clear all; Ts=1/16000; %基带信号周期为1/16000s,即为16KHz Tb=1/32000; %输入信号周期为Ts/2=1/32000s,即32KHz BbTb=0.5; %取BbTb为
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www.eeworm.com/read/132078/14110966

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 =
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www.eeworm.com/read/126851/14397478

asm g_def2.asm

task_struct struct ;PCB结构,共306字节+14个保留=320 state dd 0 ;进程状态 counter dd 0 ;剩余时间片 priority dd 0 ;优先数 signal dd 0 ;信号 blocked dd 0 ;信号的MASK flags dd
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www.eeworm.com/read/227521/14421678

m mainar.m

function [dv,wnv]=mainar(order,t,SNR) %参数识别主函数 %========================= %获得信号并进行标准化处理 y=signal(t); y0=mean(y); vy=std(y); y=(y-y0)./vy; %========================= %在已知信号中加白噪声 %sigPower = s
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www.eeworm.com/read/219315/14888574

c lcd.c

#include "..\inc\uTypes.h" #include "..\inc\44b0x.h" #include "..\inc\console.h" #include "..\inc\sysUtils.h" #define LCM_DELAY 1000 #define LCM_DELAY1 10000 //RS 信号接在 (GPC7) //RW 信号接在 (G
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www.eeworm.com/read/216263/15022210

m exa7_5_2.m

% exa070402_tfrpwv.m ,for example 7.4.2 % to test tfrpwv.m clear; %产生两相加线性调频信号 sig=[fmlin(1024,0.1,0.4)+fmlin(1024,0.4,0.1)]; % 求两个Chirp 信号和的短时傅里叶变换; tfrpwv(sig);
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www.eeworm.com/read/216263/15022220

m exa7_4_2.m

% exa070401_tfrwv.m ,for example 7.4.1 % to test tfrwv.m clear; %产生两相加线性调频信号 sig=[fmlin(1024,0.1,0.4)+fmlin(1024,0.4,0.1)]; % 求两个Chirp 信号和的短时傅里叶变换; tfrwv(sig);
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www.eeworm.com/read/216263/15022225

m exa7_6.m

% exa070501_tfrcw.m ,for example 7.5.1 % to test tfrcw.m clear; %产生两相加线性调频信号 sig=[fmlin(1024,0.1,0.4)+fmlin(1024,0.4,0.1)]; % 求两个Chirp 信号和的短时傅里叶变换; tfrcw(sig);
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www.eeworm.com/read/214928/15082808

m juanji.m

while (1) sign=input('请输入要计算的卷积类型,离散为0,连续为1:'); if (sign==0) %离散情况 xstart=input('请输入信号的开始时间:'); x=input('请输入离散信号的序列(以向量形式输入):'); hstart=i
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