Commit 9bf74c6d authored by Florian Kaltenberger's avatar Florian Kaltenberger
Browse files

New version also supports two carriers

git-svn-id: http://svn.eurecom.fr/openair4G/trunk@5316 818b1a75-f10b-46b9-bf7c-635c3b92a50f
parent 894bd3c2
close all
clear all
enable_plots=1; %eanbles figures
global symbols_per_slot slots_per_frame;
enable_plots=2; %enables figures
%% preload and init data
addpath('../../../openair1/PHY/LTE_REFSIG');
primary_synch; %loads the primary sync signal
pss_t = upsample(primary_synch0_time,4);
%load('E:\EMOS\corridor\ofdm_pilots_sync_2048_v7.mat');
load('ofdm_pilots_sync_30MHz.mat');
ofdm_symbol_length = num_carriers + prefix_length;
frame_length = ofdm_symbol_length*num_symbols_frame;
useful_carriers = num_carriers-num_zeros-1;
n_carriers = 2; % use 1 for UHF and 2 for 2.6GHz
nframes = 100; % frames in one block
symbols_per_slot = 6;
slots_per_frame = 20;
switch n_carriers
case 1,
p = init_params(25,3,4); %this can be 25, 50, or 100
pss_t = upsample(primary_synch0_time,4);
%filename = 'E:\EMOS\corridor\trials1\eNB_data_20140331_UHF_run1.EMOS';
filename = 'D:\trials1 train extracted\eNB_data_20140331_UHF_run1.EMOS';
case 2,
p(1) = init_params(50,2,4);
p(2) = init_params(100,2,4);
pss_t = upsample(primary_synch0_time,4*2); % this assumes we are doing the sync on the first carrier, which is 10MHz
%filename = 'E:\EMOS\corridor\trials1\eNB_data_20140331_UHF_run1.EMOS';
filename = 'D:\trials1 train extracted\eNB_data_20140331_2.6GHz_run1.EMOS';
end
%filename = 'E:\EMOS\corridor\trials1\eNB_data_20140331_UHF_run1.EMOS';
filename = 'D:\trials1 train extracted\eNB_data_20140331_UHF_run1.EMOS';
destdir = 'E:\EMOS\corridor\trials1 train';
samples_slot = 7680/2;
slots_per_frame = 20;
nframes = 100;
nant_rx=3;
nant_tx=4;
% derived parameters
samples_slot_agg = sum([p.nant_rx].*[p.samples_slot]);
num_symbols_frame = symbols_per_slot*slots_per_frame;
d = dir(filename);
nblocks = floor(d.bytes/(samples_slot*slots_per_frame*nframes*nant_rx*4));
PDP_total = zeros(nblocks*nframes,useful_carriers/4,nant_tx,nant_rx);
nblocks = floor(d.bytes/(samples_slot_agg*slots_per_frame*nframes*4));
PDP_total = zeros(nblocks*nframes,p(1).useful_carriers/4,p(1).nant_tx,p(1).nant_rx);
%% main loop
fid = fopen(filename,'r');
vStorage = []; %%
vStorage1 = [];
vStorage2 = [];
block = 1; %
block = 1;
flag1 = 1;
start=2;
threshold = 3e+4 ; % maybe should change that !!!!
% fseek(fid,samples_slot*slots_per_frame*nframes*nant*102*2,'bof');
% %advance 102 sec
fseek(fid,samples_slot_agg*slots_per_frame*nframes*120*2,'bof'); %advance 30 sec
while ~feof(fid)
fprintf(1,'Processing block %d of %d',block,nblocks);
[v,c]=fread(fid, samples_slot*slots_per_frame*nframes*nant_rx*2, 'int16',0,'ieee-le');
[v,c]=fread(fid, 2*samples_slot_agg*slots_per_frame*nframes, 'int16',0,'ieee-le');
if (c==0)
break
end
v1 = double(v(1:2:end))+1j*double(v(2:2:end));
nframes = 100;
v0 = double(v(1:2:end))+1j*double(v(2:2:end));
v2 = zeros(samples_slot*slots_per_frame*nframes,nant_rx);
v1 = zeros(p(1).samples_slot*slots_per_frame*nframes,p(1).nant_rx);
for slot=1:slots_per_frame*nframes
for a=1:nant_rx
v2((slot-1)*samples_slot+1:slot*samples_slot,a) = ...
v1((slot-1)*samples_slot*nant_rx+(a-1)*samples_slot+1:...
(slot-1)*samples_slot*nant_rx+ a *samples_slot,1);
for a=1:p(1).nant_rx
v1((slot-1)*p(1).samples_slot+1:slot*p(1).samples_slot,a) = ...
v0((slot-1)*samples_slot_agg+(a-1)*p(1).samples_slot+1:...
(slot-1)*samples_slot_agg+ a *p(1).samples_slot,1);
end
end
if n_carriers==2
v2 = zeros(p(2).samples_slot*slots_per_frame*nframes,p(2).nant_rx);
for slot=1:slots_per_frame*nframes
for a=1:p(2).nant_rx
v2((slot-1)*p(2).samples_slot+1:slot*p(2).samples_slot,a) = ...
v0((slot-1)*samples_slot_agg+(a-1)*p(2).samples_slot+1:...
(slot-1)*samples_slot_agg+ a *p(2).samples_slot,1);
end
end
end
v2 = [vStorage; v2] ;%%
if size(v2,1) > frame_length*nframes ;
nframes = floor(size(v2,1) / frame_length) ;
vStorage = v2(frame_length*nframes+1:end,:) ;
v2(frame_length*nframes + 1 : end,:) = [] ;
v1 = [vStorage1; v1] ;
if size(v1,1) > p(1).frame_length*nframes ;
nframes = floor(size(v1,1) / p(1).frame_length) ;
vStorage1 = v1(p(1).frame_length*nframes+1:end,:) ;
v1(p(1).frame_length*nframes + 1 : end,:) = [] ;
start = 1 ;
end
if n_carriers==2
v2 = [vStorage1; v2] ;
if size(v2,1) > p(2).frame_length*nframes ;
nframes = floor(size(v2,1) / p(2).frame_length) ;
vStorage1 = v2(p(2).frame_length*nframes+1:end,:) ;
v2(p(2).frame_length*nframes + 1 : end,:) = [] ;
start = 1 ;
end
end
if enable_plots>=2
figure(1)
plot(20*log10(abs(fftshift(fft(v2)))))
plot(20*log10(abs(fftshift(fft(v1)))))
end
%% frame start detection
if flag1==1
[corr,lag] = xcorr(v2(:,1),pss_t);
[corr,lag] = xcorr(v1(:,1),pss_t);
%[m,idx]=max(abs(corr));
%[m,idx]=peaksfinder(corr,frame_length);
tmp = corr(nframes*slots_per_frame*samples_slot:end);
tmp2 = reshape(tmp,slots_per_frame*samples_slot,nframes);
tmp = corr(nframes*slots_per_frame*p(1).samples_slot:end);
tmp2 = reshape(tmp,slots_per_frame*p(1).samples_slot,nframes);
[m,idx] = max(abs(tmp2),[],1);
% meanCorr = mean(abs(tmp2));
% [mm,where] = max(m./meanCorr)
% meanCorr = mean(abs(tmp2));
% [mm,where] = max(m./meanCorr)
idx(m < threshold) = [];
if size(idx,2) <= 1
flag1 = 1 ;
flag2 = 0 ;
vStorage = [];
% elseif size(idx,2) == nframes
%
% flag1 = 0;
% flag2 = 1;
vStorage1 = [];
% elseif size(idx,2) == nframes
%
% flag1 = 0;
% flag2 = 1;
else
flag1 = 0 ;
flag2 = 1 ;
end
frame_offset = round(median(idx)) - prefix_length;
frame_offset = round(median(idx)) - p(1).prefix_length;
if enable_plots>=2
figure(2);
hold off
......@@ -117,76 +149,103 @@ while ~feof(fid)
plot(frame_offset,m(1),'ro')
end
else
frame_offset = 0; %%%%% line 93 florian's
frame_offset = 0;
end
%%
if flag2 == 1
for i=start:nframes;
fprintf(1,'.');
frame_start = (slots_per_frame*samples_slot)*(i-1)+frame_offset+1;
%frame_start = lag(idx(i))-prefix_length;
% frame_start = lag(i) - prefix_length;
frame_start1 = (slots_per_frame*p(1).samples_slot)*(i-1)+frame_offset+1;
if n_carriers==2
frame_start2 = (slots_per_frame*p(2).samples_slot)*(i-1)+frame_offset*2+1;
end
if i<nframes
%% ofdm receiver
received_f = OFDM_RX(v2(frame_start:frame_start+frame_length,:),num_carriers,useful_carriers,prefix_length,num_symbols_frame);
received_f1 = OFDM_RX(v1(frame_start1:frame_start1+p(1).frame_length,:),p(1).num_carriers,p(1).useful_carriers,p(1).prefix_length,num_symbols_frame);
if n_carriers==2
received_f2 = OFDM_RX(v2(frame_start2:frame_start2+p(2).frame_length,:),p(2).num_carriers,p(2).useful_carriers,p(2).prefix_length,num_symbols_frame);
end
else
vStorage = [v2(frame_start:end,:) ; vStorage]; %%
vStorage1 = [v1(frame_start1:end,:) ; vStorage1]; %%
if n_carriers==2
vStorage2 = [v2(frame_start2:end,:) ; vStorage2]; %%
end
end
%% MIMO channel estimation
H = zeros(num_symbols_frame/2,useful_carriers/4,nant_tx,nant_rx);
for itx=1:nant_tx
% f_start and t_start indicate the start of the pilots in time
% and frequency according to the specifications (see .doc file).
% t_start has to be >=2, since the first symbol is the PSS.
f_start = mod(itx-1,2)*2+1;
t_start = floor((itx-1)/2)+1;
for irx=1:nant_rx
H(:,:,itx,irx)=conj(squeeze(f3(itx,t_start:2:end,f_start:4:end))).*received_f(t_start:2:end,f_start:4:end,irx);
%% MIMO channel estimation
if (n_carriers==1)
transmit_f1 = f3;
else
transmit_f1 = f2;
transmit_f2 = f1;
end
end
Ht = ifft(H,[],2);
PDP = mean(abs(Ht).^2,1);
PDP_all = squeeze(mean(mean(PDP,3),4));
PDP_total((block-1)*nframes+i+1,:,:,:) = PDP;
% adjust frame offset base on channel estimate to compensate for
% timing drift. We try to keep the peak of the impulse response at
% sample prefix_length/8.
[m,idx] = max(fft(ifft(PDP_all),num_carriers));
offset = idx - prefix_length/8;
if offset > prefix_length
offset = offset - num_carriers;
end
if abs(offset) > 5
frame_offset = frame_offset + round(offset/4);
end
if enable_plots>=1
figure(3)
for itx=1:nant_tx
for irx=1:nant_rx
subplot(nant_tx,nant_rx,(itx-1)*nant_rx + irx);
surf(20*log10(abs(Ht(:,:,itx,irx))))
%xlabel('time [OFDM symbol]')
%ylabel('delay time [samples]')
%zlabel('power [dB]')
shading interp
for carrier=1:n_carriers
if (carrier==1)
transmit_f = transmit_f1;
received_f = received_f1;
else
transmit_f = transmit_f2;
received_f = received_f2;
end
H = zeros(num_symbols_frame/2,p(carrier).useful_carriers/4,p(carrier).nant_tx,p(carrier).nant_rx);
for itx=1:p(carrier).nant_tx
% f_start and t_start indicate the start of the pilots in time
% and frequency according to the specifications (see .doc file).
% t_start has to be >=2, since the first symbol is the PSS.
f_start = mod(itx-1,2)*2+1;
t_start = floor((itx-1)/2)+1;
for irx=1:p(carrier).nant_rx
H(:,:,itx,irx)=conj(squeeze(transmit_f(itx,t_start:2:end,f_start:4:end))).*received_f(t_start:2:end,f_start:4:end,irx);
end
end
figure(4)
for itx=1:nant_tx
for irx=1:nant_rx
subplot(nant_tx,nant_rx,(itx-1)*nant_rx + irx);
plot(10*log10(PDP(:,:,itx,irx)))
ylim([50 80])
xlim([0 75])
%xlabel('delay time [samples]')
%ylabel('power [dB]')
Ht = ifft(H,[],2);
PDP = mean(abs(Ht).^2,1);
PDP_all = squeeze(mean(mean(PDP,3),4));
%PDP_total((block-1)*nframes+i+1,:,:,:) = PDP;
if enable_plots>=1
figure(3+2*(carrier-1))
for itx=1:p(carrier).nant_tx
for irx=1:p(1).nant_rx
subplot(p(1).nant_tx,p(1).nant_rx,(itx-1)*p(1).nant_rx + irx);
surf(20*log10(abs(Ht(:,:,itx,irx))))
%xlabel('time [OFDM symbol]')
%ylabel('delay time [samples]')
%zlabel('power [dB]')
shading interp
end
end
figure(4+2*(carrier-1))
for itx=1:p(1).nant_tx
for irx=1:p(1).nant_rx
subplot(p(1).nant_tx,p(1).nant_rx,(itx-1)*p(1).nant_rx + irx);
plot(10*log10(PDP(:,:,itx,irx)))
ylim([50 80])
xlim([0 75])
%xlabel('delay time [samples]')
%ylabel('power [dB]')
end
end
drawnow
end
drawnow
end
end
% adjust frame offset base on channel estimate to compensate for
% timing drift. We try to keep the peak of the impulse response at
% sample prefix_length/8.
[m,idx] = max(fft(ifft(PDP_all),p(1).num_carriers));
offset = idx - p(1).prefix_length/8;
if offset > p(1).prefix_length
offset = offset - p(1).num_carriers;
end
if abs(offset) > 5
frame_offset = frame_offset + round(offset/4);
end
end
end
fprintf(1,'\n');
......
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