ldpc_decode.m LDPC误码率仿真源码程序 - matlab通信信号

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    function [x_hat, success, k] = ldpc_decode(f0,f1,H)

[m,n] = size(H); if m>n, H=H'; [m,n] = size(H); end
if ~issparse(H) % make H sparse if it is not sparse yet
   [ii,jj,sH] = find(H);
   H = sparse(ii,jj,sH,m,n);
end

%initialization
[ii,jj] = find(H);             % subscript index to nonzero elements of H 
indx = sub2ind(size(H),ii,jj); % linear index to nonzero elements of H
q0 = H * spdiags(f0(:),0,n,n);
sq0 = full(q0(indx)); 
sff0 = sq0;

q1 = H * spdiags(f1(:),0,n,n); 
sq1 = full(q1(indx));
sff1 = sq1;

%iterations
k=0;
success = 0;
max_iter = 100;
while ((success == 0) & (k < max_iter)),
   k = k+1;
   
   %horizontal step
   sdq = sq0 - sq1; sdq(find(sdq==0)) = 1e-20; % if   f0 = f1 = .5
   dq = sparse(ii,jj,sdq,m,n);
   Pdq_v = full(real(exp(sum(spfun('log',dq),2)))); 
   Pdq = spdiags(Pdq_v(:),0,m,m) * H;
   sPdq = full(Pdq(indx));
   sr0 = (1+sPdq./sdq)./2; sr0(find(abs(sr0) < 1e-20)) = 1e-20;
   sr1 = (1-sPdq./sdq)./2; sr1(find(abs(sr1) < 1e-20)) = 1e-20;
   r0 = sparse(ii,jj,sr0,m,n);
   r1 = sparse(ii,jj,sr1,m,n);
   
   %vertical step
   Pr0_v = full(real(exp(sum(spfun('log',r0),1))));
   Pr0 = H * spdiags(Pr0_v(:),0,n,n);
   sPr0 = full(Pr0(indx));
   Q0 = full(sum(sparse(ii,jj,sPr0.*sff0,m,n),1))';
   sq0 = sPr0.*sff0./sr0;
   
   Pr1_v = full(real(exp(sum(spfun('log',r1),1))));
   Pr1 = H * spdiags(Pr1_v(:),0,n,n);
   sPr1 = full(Pr1(indx)); 
   Q1 = full(sum(sparse(ii,jj,sPr1.*sff1,m,n),1))';
   sq1 = sPr1.*sff1./sr1;
   
   sqq = sq0+sq1;
   sq0 = sq0./sqq;
   sq1 = sq1./sqq;
   
   %tentative decoding
   QQ = Q0+Q1;
   Q0 = Q0./QQ;
   Q1 = Q1./QQ;
   
   x_hat = (sign(Q1-Q0)+1)/2;
    if rem(H*x_hat,2) == 0, success = 1; end
end