git-svn-id: http://svn.eurecom.fr/openair4G/trunk@4181 818b1a75-f10b-46b9-bf7c-635c3b92a50f

targets/PROJECTS/TDDREC/beamforming.m

@@ -2,6 +2,7 @@
 signalA2B=zeros(N,4);
 signalB2A=zeros(N,4);
 signalB2A_prec=zeros(N,4);
+signalB2A_diag=zeros(N,4);
 
 %%----------Node A to B transmission---------%%
 for i=1:4
@@ -37,7 +38,9 @@ chanestsA2B=reshape(diag(repmat(Da2b_T,1,Nantb)'*Da2b_R)/size(Da2b_T,1),301,Nant
 for i=1:301
     YA=chanestsA2B(i,:).';
     F=Fs(:,:,i);
-    Bd(:,i) = conj(F*YA)./norm(F*YA);
+    Fd=Fds(:,:,i);
+    BFs(:,i) = conj(F*YA)./norm(F*YA);
+    BDs(:,i) = conj(Fd*YA)./norm(Fd*YA);
 end
 
 %% generate normal and beamformed signals
@@ -45,24 +48,24 @@ end
 for i=1:size(seqf,1)
     % precoding
     for j=1:size(seqf,2)
-        symbol_prec(:,j)=Bd(:,j)*seqf(i,j);
+        seqf_prec_full(:,i,j)=BFs(:,j)*seqf(i,j);
+        seqf_prec_diag(:,i,j)=BDs(:,j)*seqf(i,j);
     end
-    % insert zero subcarriers
-    symbol_prec=cat(2,zeros(3,1),symbol_prec(:,1:150),zeros(3,210),symbol_prec(:,151:301));
-    % ofdm modulation
-    symbol_prec_t=ifft(symbol_prec,512,2);
-    % Adding cycl. prefix making the block of 640 elements
-    symbol_prec_cp = cat(2,symbol_prec_t(:,end-127:end), symbol_prec_t);
-    tmps_prec(:,[1:640]+(i-1)*640)=floor(amp*symbol_prec_cp);
 end
 
+tmps_prec_diag = ofdm_mod(seqf_prec_full,amp);
+tmps_prec_full = ofdm_mod(seqf_prec_diag,amp);
+
+%%
 for i=1:4
     if(active_rfB(i))
       signalB2A(:,i)=floor(tmps/sqrt(3))*2; %make sure LSB is 0 (switch=tx)
-        signalB2A_prec(:,i)=tmps_prec(i-1,:)*2; %make sure LSB is 0 (switch=tx)
+      signalB2A_prec_full(:,i)=tmps_prec_full(i-1,:)*2; %make sure LSB is 0 (switch=tx)
+      signalB2A_prec_diag(:,i)=tmps_prec_diag(i-1,:)*2; %make sure LSB is 0 (switch=tx)
     else
       signalB2A(:,i)=repmat(1+1j,76800,1); %make sure LSB is 1 (switch=rx)
-        signalB2A_prec(:,i)=repmat(1+1j,76800,1); %make sure LSB is 1 (switch=rx)
+      signalB2A_prec_full(:,i)=repmat(1+1j,76800,1); %make sure LSB is 1 (switch=rx)
+      signalB2A_prec_diag(:,i)=repmat(1+1j,76800,1); %make sure LSB is 1 (switch=rx)
     end
 end
 
@@ -77,17 +80,27 @@ sleep(0.01);
 P_rx = 10*log10(mean(abs(receivedB2A(:,1)).^2))
 
 %% send beamformed DL signal
-P_tx_prec = 10*log10(sum(mean(abs(signalB2A_prec(:,2:4)).^2)))
-oarf_send_frame(card,signalB2A_prec,n_bit);
+P_tx_prec_diag = 10*log10(sum(mean(abs(signalB2A_prec_diag(:,2:4)).^2)))
+oarf_send_frame(card,signalB2A_prec_diag,n_bit);
+%keyboard
+sleep(0.01);
+receivedB2A_prec_diag=oarf_get_frame(card);
+sleep(0.01);
+% measure SNR
+P_rx_prec_diag = 10*log10(mean(abs(receivedB2A_prec_diag(:,1)).^2))
+
+%% send beamformed DL signal
+P_tx_prec_full = 10*log10(sum(mean(abs(signalB2A_prec_full(:,2:4)).^2)))
+oarf_send_frame(card,signalB2A_prec_full,n_bit);
 %keyboard
 sleep(0.01);
-receivedB2A_prec=oarf_get_frame(card);
+receivedB2A_prec_full=oarf_get_frame(card);
 sleep(0.01);
 % measure SNR
-P_rx_prec = 10*log10(mean(abs(receivedB2A_prec(:,1)).^2))
+P_rx_prec_full = 10*log10(mean(abs(receivedB2A_prec_full(:,1)).^2))
 
 figure(10)
-bar([P_tx P_tx_prec; P_rx P_rx_prec]);
-legend('normal','beamformed')
+bar([P_tx P_tx_prec_diag P_tx_prec_full; P_rx P_rx_prec_diag P_rx_prec_full]);
+legend('normal','beamformed F diag', 'beamformed F full')
 ylim([0 60])
 drawnow

targets/PROJECTS/TDDREC/calibration.m

@@ -23,6 +23,14 @@ for s=1:301
 	%HAs{s}=HA;
 end
 
+%% calculate the diag F matrix based on last position
+Fds = zeros(Nantb,Nantb,301);
+for s=1:301
+    CHA = squeeze(chanestsA2B(s,:,:));
+    CHB = aqueeze(chanestsB2A(s,:,:));
+    Fds(:,:,s)=diag(diag(CHB*CHA')./diag(CHA*CHA'));
+end
+
 %% plot F
 figure(1)
 clf

targets/PROJECTS/TDDREC/genrandpskseq.m

-# % Author: Mirsad Cirkic
-# % Organisation: Eurecom (and Linkoping University)
-# % E-mail: mirsad.cirkic@liu.se
+% Author: Mirsad Cirkic
+% Organisation: Eurecom (and Linkoping University)
+% E-mail: mirsad.cirkic@liu.se
 
 
 function [carrierdata, s]=genrandpskseq(N,M,amp)
   
 if(mod(N,640)~=0)
   error('The sequence length must be divisible with 640.');
-endif
+end
 s = zeros(N,1);
 MPSK=exp(sqrt(-1)*([1:M]*2*pi/M+pi/M));
 
@@ -18,12 +18,12 @@ for i=0:(N/640-1)
   datablock=MPSK(ceil(rand(301,1)*M));
   for j=1:301
     carrierdata(i+1,j)=datablock(j);
-  endfor
+  end
   fblock=[0 datablock(1:150) zeros(1,210) datablock(151:301)];
   ifblock=ifft(fblock,512);
   % Adding cycl. prefix making the block of 640 elements	
   block = [ifblock(end-127:end) ifblock]; 
   s([1:640]+i*640)=floor(amp*block);
-endfor
+end
 
-endfunction
\ No newline at end of file
+end
\ No newline at end of file

targets/PROJECTS/TDDREC/ofdm_mod.m

+function sigt = ofdm_mod(sigf,amp)
+[Nant,Nsymb,Nsub] = size(sigf);
+sigt = zeros(Nant,Nsymb*640);
+for i=1:Nsymb
+    symbol=squeeze(sigf(:,i,:));
+    % insert zero subcarriers
+    symbol=cat(2,zeros(Nant,1),symbol(:,1:150),zeros(Nant,210),symbol(:,151:301));
+    % ofdm modulation
+    symbol_t=ifft(symbol,512,2);
+    % Adding cycl. prefix making the block of 640 elements
+    symbol_cp = cat(2,symbol_t(:,end-127:end), symbol_t);
+    sigt(:,(1:640)+(i-1)*640)=floor(amp*symbol_cp);
+end