dan@0: function [A_sys,b_sys] = ddm_lin_sys_fft_frq_hop(R, Q, frq_hop, win, win_der, mf_ders, sig, N, N_fft, fs)
dan@0:   
dan@0:   assert(size(mf_ders,1) == N );
dan@0:   assert(size(mf_ders, 2) == Q);
dan@0:   assert(size(win,1) == N );
dan@0:   assert(size(win,2) == 1 );
dan@0:   assert(size(win_der,1) == N );
dan@0:   assert(size(win_der,2) == 1 );
dan@0:   assert(size(sig,1) == N );
dan@0:   assert(size(sig,2) == 1 );
dan@0:   assert(N <= N_fft);
dan@0:   
dan@0:   win_mat  = repmat(win, 1, Q);
dan@0:   frqs_fft = [0:N_fft-1]'*fs*2*pi/N_fft;
dan@0:   [str_idx end_idx] = zpzh_idxs(N);
dan@0:   sig_mat  = repmat(sig, 1, Q);
dan@0:   fft_sig_mat_bffr     = win_mat .* sig_mat .* mf_ders;
dan@0:   fft_sig_win_der_bffr = win_der .* sig;
dan@0:   fft_sig_win_der = fft([fft_sig_win_der_bffr(str_idx,:);zeros(N_fft-N,1);fft_sig_win_der_bffr(end_idx,:)],N_fft,1);
dan@0:   A =   fft([fft_sig_mat_bffr(str_idx,:);zeros(N_fft-N,Q);fft_sig_mat_bffr(end_idx,:)], N_fft, 1); %zero padded sheeza
dan@0:   b = -(fft_sig_win_der - 1j*frqs_fft.* A(:,1));
dan@0: % create the actual matrixes
dan@0: 
dan@0:   frq_bins = [1:frq_hop:N_fft-R+1];
dan@0:   frq_lims = [frq_bins;frq_bins+R];
dan@0:   nr_frqs = length(frq_bins);
dan@0:   A_sys = zeros(R,Q,nr_frqs);
dan@0:   b_sys = zeros(R,1,nr_frqs);
dan@0:   
dan@0:   for k=1:frq_hop:R
dan@0:     A_sys(k,:,:) = shiftdim(A(k:N_fft-R+k,:).',-1);
dan@0:     b_sys(k,:,:) = shiftdim(b(k:N_fft-R+k).',-1);
dan@0:   end
dan@0:   
dan@0: end