gmsk_2dd_c.m

gmsk的源代码

%GMSK调制，二比特差分解调
clear all
close all

%--------------------------------------------------------------------------
%参数设置
data_len = 30000;          %码元个数
sample_number = 8;          %采样个数
Rb = 24000;                 %码元速率
fc = 96000;                 %载波频率
alpha = 0.25;               %BbTb值
%**************************************************************************

%--------------------------------------------------------------------------
%随机产生传输信号
data = rand_binary(data_len);
%**************************************************************************

%--------------------------------------------------------------------------
%差分编码
data_diff = difference(data);
%**************************************************************************

%--------------------------------------------------------------------------
%参数设置
[signal_out,I_out,Q_out,phase,gt,qt] = mod_gmsk(data_diff,data_len,sample_number,Rb,alpha);
%**************************************************************************

%--------------------------------------------------------------------------
%中频搬移
multi = fc/Rb;
I_temp=interp(I_out,multi);
Q_temp=interp(Q_out,multi);

Fs=fc*sample_number;
t=1/Fs:1/Fs:length(I_temp)*1/Fs;
signal_i=I_temp.*cos(2*pi*fc*t);
signal_q=Q_temp.*sin(2*pi*fc*t);
signal_mod_i=I_temp.*cos(2*pi*fc*t)-Q_temp.*sin(2*pi*fc*t);
signal_mod_q=I_temp.*sin(2*pi*fc*t)+Q_temp.*cos(2*pi*fc*t);
%**************************************************************************

%--------------------------------------------------------------------------
%加噪声
for SNR = 0:16
% signal_mod1 = awgn(signal_mod_i+j*signal_mod_q,SNR);

noise=randn(1,length(signal_mod_i));
b=0.2;c=0.22;d=0.28;e=0.3;
F1=[0,b,c,d,e,1];
A1=[0,0,1,1,0,0];
bpf=firls(300,F1,A1);

noise1=conv(noise,bpf);
noise_out=noise1(150+1:150+length(signal_mod_i));

Power_noise=sum(noise_out.^2);
Power_signal_i=sum(signal_mod_i.^2);
Power_signal_q=sum(signal_mod_q.^2);
Coe_SNR_i=sqrt(1*Power_signal_i/Power_noise/(10^(SNR/10)));
Coe_SNR_q=sqrt(1*Power_signal_q/Power_noise/(10^(SNR/10)));

signal_mod1 = (signal_mod_i+(Coe_SNR_i)*noise_out) + j * (signal_mod_q+(Coe_SNR_q)*noise_out);    %加入噪声以后的信号

    %--------------------------------------------------------------------------
    %二比特差分
    cospart = real(signal_mod1);
    sinpart = imag(signal_mod1);
    
    delay = [zeros(1,2*multi*sample_number) cospart(1:data_len*sample_number*multi-2*multi*sample_number)];
    cha = -delay .* cospart;
    
    N=300;                                              % 滤波器的阶数为(N+1)  
    F=[0,fc-1000,fc+1000,Fs/2]*2/Fs;
    A=[1,1,0,0];
    lpf=firls(N,F,A);
    
    dem1 = conv(cha,lpf);
    dem = dem1(N/2+1:N/2+length(cha));
    %**************************************************************************
    
    %--------------------------------------------------------------------------
    %抽样判决
    for i = 2:data_len
        demod_data(i) = dem(i*multi*sample_number)>-0.1;
    end
    demod_data = 2*demod_data-1;
    %**************************************************************************
    
    %--------------------------------------------------------------------------
    %计算误码率
    [num,ber(SNR+1)]=symerr(demod_data(3:data_len),data(3:data_len));
    %**************************************************************************
end
%**************************************************************************

%--------------------------------------------------------------------------
%误码率曲线
semilogy([0:16],ber,'r*-');
%**************************************************************************