% MRC_scheme.m
% Receiver diversity - MRC
%MIMO-OFDM Wireless Communications with MATLAB ㈢ Yong Soo Cho,
Jaekwon Kim, Won Young Yang and Chung G. Kang
%?2010 John Wiley & Sons (Asia) Pte Ltd
clear, clf
L_frame=130; N_packet=4000;
b=3; % Set to 1/2/3/4 for BPSK/QPSK/16QAM/64QAM
SNRdBs=[0:2:20]; sq2=sqrt(2);
% SNRdBs=[0:10:20]; sq2=sqrt(2);
for iter=1:3
if iter==1, NT=1; NR=1; gs='-kx'; % SISO
elseif iter==2, NT=1; NR=2; gs='-^'; % Numbers of Tx/Rx antennas
else NT=1; NR=4; gs='-ro'; %
end
sq_NT=sqrt(NT);
for i_SNR=1:length(SNRdBs)
SNRdB=SNRdBs(i_SNR); sigma=sqrt(0.5/(10^(SNRdB/10)));
for i_packet=1:N_packet
symbol_data=randint([0,1],L_frame*b,NT);
[temp,sym_tab,P]=modulator(symbol_data.',b);
X=temp.'; % frlg=length(X);
Hr = (randn(L_frame,NR)+j*randn(L_frame,NR))/sq2;
H = reshape(Hr,L_frame,NR); Habs = sum(abs(H).^2,2); Z=0;
for i=1:NR
R(:,i) = sum(H(:,i).*X,2)/sq_NT +
sigma*(randn(L_frame,1)+j*randn(L_frame,1));
Z = Z + R(:,i).*conj(H(:,i));
end
for m=1:P
d1(:,m)=abs(sum(Z,2)-sym_tab(m)).^2+(-
1+sum(Habs,2))*abs(sym_tab(m))^2;
end
[y1,i1] = min(d1,[],2); Xd=sym_tab(i1).';
temp1 = X>0; temp2 = Xd>0;
noeb_p(i_packet)=sum(sum(temp1~=temp2));
end
BER(iter,i_SNR) = sum(noeb_p)/(N_packet*L_frame*b);
end% end of FOR loop for SNR
semilogy(SNRdBs,BER(iter,:),gs), hold on, axis([SNRdBs([1 end]) 1e-6 1e0])
end
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