bper.asv

无线通信系统中的空时编码的仿真程序。多天线发送

function [pb,ps]=bper(snr_in_dB)
N=1000;
E=1;                                           %energy per symbol
snr=10^(snr_in_dB/10);
numan=1;                                       %the number of transmit antennas
sgman=sqrt(E*n/(2*snr));                       %noise variance
sgmaa=sqrt(0.5);
M=8;
L=log(M)/log(2);
for k=1:N,
    temp=rand;
    dsource(k)=1+floor(M*temp);                % a integer number between 1 and M, uniform       
end;
mappingbits=[0 0 0;
            0 0 1;
            0 1 0;
            0 1 1;
            1 0 0;
            1 0 1;
            1 1 0;
            1 1 1]
mapping=[cos(pi/16)+sin(pi/16)i;
     cos(3*pi/16)+sin(3*pi/16)i;
     cos(7*pi/16)+sin(7*pi/16)i;
     cos(5*pi/16)+sin(5*pi/16)i;
     cos(15*pi/16)+sin(15*pi/16)i;
     cos(13*pi/16)+sin(13*pi/16)i;
     cos(9*pi/16)+sin(9*pi/16)i;
     cos(11*pi/16)+sin(11*pi/16)i];            %8PSK
 for k=1:N,
     epsk_sig(k)=mapping(dsource(k));
     dsourcebits(k,:)=mappingbits(dsource(k),:);
 end;
 for k=1:N,                                     %received signal
     [a(1) a(2)]=gngauss(sgmaa);                %path gain
     [n(1) n(2)]=gngauss(sgman);                %noise
     r(k)=epsk_sig(k).*(a(1)+a(2)i)+(n(1)+n(2)i);
     for j=1:M,
         s(k,j)=mapping(j).*(a(1)+a(2)i);
     end;
 end;
 numofsymbolerror=0;
 numofbiterror=0;
 for k=1:N,
     for j=1:M,
         metrics(j)=abs(r(k)-s(k,j));
     end;
     [min_metric decis]=min(metrics);
     decisbits(k,:)=mappingbits(decis,:);
     for l=1:L,
         if (decisbits(k,l)~=dsourcebits(k,l),
             numofbiterror=numofbiterror+1;
         end;
     end;
     if (decis~=dsource(k)),
         numofsymbolerror=numofsymbolerror+1;
     end;
 end;
 ps=numofsymbolerror/N;
 pb=numofbiterror/