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add matlab pucch tests

This commit is contained in:
Ismael Gomez 2016-10-18 10:56:07 +02:00
parent ea4a81c8d0
commit 6b20636b63
4 changed files with 360 additions and 2 deletions
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133
matlab/tests/pucch_bler.m Normal file
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@ -0,0 +1,133 @@
clear
ueConfig=struct('NCellID',1,'RNTI',11,'NULRB',25,'NSubframe',0,'CyclicPrefixUL','Normal','NTxAnts',1,'Hopping','Off');
pucchConfig=struct('NLayers',1,'OrthCover','Off','Shortened',0,'ResourceSize',2);
format_str={'1','1a'};
threshold=[0.5 0];
formats=[1];
pucchConfig.ResourceIdx= 0;
pucchConfig.DeltaShift = 1;
pucchConfig.CyclicShifts = 0;
ueConfig.NSubframe=0;
enable_fading=false;
SNR_values=-5;%linspace(-8,0,8);
Nreal=50;
% Setup Fading channel model
cfg.Seed = 8; % Random channel seed
cfg.NRxAnts = 1; % 1 receive antenna
cfg.DelayProfile = 'EVA'; % EVA delay spread
cfg.DopplerFreq = 5; % 120Hz Doppler frequency
cfg.MIMOCorrelation = 'Low'; % Low (no) MIMO correlation
cfg.InitTime = 0; % Initialize at time zero
cfg.NTerms = 16; % Oscillators used in fading model
cfg.ModelType = 'GMEDS'; % Rayleigh fading model type
cfg.InitPhase = 'Random'; % Random initial phases
cfg.NormalizePathGains = 'On'; % Normalize delay profile power
cfg.NormalizeTxAnts = 'On'; % Normalize for transmit antennas
% Setup matlab channel equalizer
cec.PilotAverage = 'UserDefined'; % Type of pilot averaging
cec.FreqWindow = 9; % Frequency window size
cec.TimeWindow = 9; % Time window size
cec.InterpType = 'linear'; % 2D interpolation type
cec.InterpWindow = 'Causal'; % Interpolation window type
cec.InterpWinSize = 1; % Interpolation window size
addpath('../../debug/srslte/lib/phch/test')
ber=zeros(length(formats),length(SNR_values));
ber2=zeros(length(formats),length(SNR_values));
for f=1:length(formats)
nb=formats(f);
for s=1:length(SNR_values)
SNRdB=SNR_values(s);
SNR = 10^(SNRdB/10); % Linear SNR
errors = 0;
errors2 = 0;
for n=1:Nreal
bits=randi(2,nb-1,1)-1;
[sym_mat, info]=ltePUCCH1(ueConfig,pucchConfig,bits);
idx=ltePUCCH1Indices(ueConfig,pucchConfig);
[dmrs_mat, info_dmrs]=ltePUCCH1DRS(ueConfig,pucchConfig);
idx_dmrs=ltePUCCH1DRSIndices(ueConfig,pucchConfig);
% Resource mapping
subframe_tx = lteULResourceGrid(ueConfig);
subframe_tx(idx)=sym_mat;
subframe_tx(idx_dmrs)=dmrs_mat;
[txWaveform, info] = lteSCFDMAModulate(ueConfig,subframe_tx);
cfg.SamplingRate = info.SamplingRate;
% Fading
if (enable_fading)
rxWaveform = lteFadingChannel(cfg,txWaveform);
else
rxWaveform = txWaveform;
end
% Noise Addition
N0 = 1/(sqrt(2.0*double(info.Nfft))*SNR);
noise = N0*complex(randn(size(rxWaveform)), randn(size(rxWaveform))); % Generate noise
rxWaveform = rxWaveform + noise;
% Demodulate
subframe_rx = lteSCFDMADemodulate(ueConfig, rxWaveform);
% Perform channel estimation
[hest, nest] = lteULChannelEstimatePUCCH1(ueConfig, pucchConfig, cec, subframe_rx);
% Equalize
pucchSymbols = lteEqualizeMMSE(subframe_rx(idx), hest(idx), nest);
% Decoding
bits_rx = ltePUCCH1Decode(ueConfig, pucchConfig, length(bits), pucchSymbols);
% Check errors
a=size(bits_rx);
if (a(2) ~= 1)
errors = errors + 1;
elseif (formats(f) == 2)
if (a(1) ~= 1)
errors = errors + 1;
elseif (bits_rx(1) ~= bits(1))
errors = errors + 1;
end
end
% Decoding srsLTE
[bits_rx,z,ce]= srslte_pucch(ueConfig, pucchConfig, length(bits), subframe_rx, threshold);
% Check errors
a=size(bits_rx);
if (a(2) ~= 1)
errors2 = errors2 + 1;
elseif (formats(f) == 2)
if (a(1) ~= 1)
errors2 = errors2 + 1;
elseif (bits_rx(1) ~= bits(1))
errors2 = errors2 + 1;
end
end
end
ber(f,s)=errors/Nreal;
ber2(f,s)=errors2/Nreal;
fprintf('Format %s, SNR=%.1f dB, errors=%d, errors2=%d\n', format_str{formats(f)},SNRdB,errors,errors2);
end
end
semilogy(SNR_values,ber,SNR_values,ber2)
xlabel('SNR (dB)')
ylabel('BER')
grid on
legend(format_str(formats))

2
srslte/lib/enb/enb_ul.c
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@ -238,7 +238,7 @@ int srslte_enb_ul_get_pucch(srslte_enb_ul_t *q, srslte_pucch_format_t format, ui
}
break;
default:
fprintf(stderr, "Error getting PUCCH format %d not supported\n");
fprintf(stderr, "Error getting PUCCH format %d not supported\n", format);
return SRSLTE_ERROR;
}

225
srslte/lib/phch/test/pucch_test_mex.c Normal file
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@ -0,0 +1,225 @@
/**
*
* \section COPYRIGHT
*
* Copyright 2013-2015 Software Radio Systems Limited
*
* \section LICENSE
*
* This file is part of the srsLTE library.
*
* srsLTE is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* srsLTE is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
#include <string.h>
#include "srslte/srslte.h"
#include "srslte/mex/mexutils.h"
/** MEX function to be called from MATLAB to test the channel estimator
*/
#define UECFG prhs[0]
#define PUCCHCFG prhs[1]
#define N_BITS prhs[2]
#define INPUT prhs[3]
#define THRESHOLD prhs[4]
#define NOF_INPUTS 4
void help()
{
mexErrMsgTxt
("[data, symbols, ce]=srslte_pucch(ue, chs, n_bits, input)\n\n");
}
/* the gateway function */
void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[])
{
if (nrhs < NOF_INPUTS) {
help();
return;
}
srslte_verbose = SRSLTE_VERBOSE_NONE;
srslte_cell_t cell;
bzero(&cell, sizeof(srslte_cell_t));
cell.nof_ports = 1;
cell.cp = SRSLTE_CP_NORM;
if (mexutils_read_uint32_struct(UECFG, "NCellID", &cell.id)) {
mexErrMsgTxt("Field NCellID not found in UE config\n");
return;
}
if (mexutils_read_uint32_struct(UECFG, "NULRB", &cell.nof_prb)) {
mexErrMsgTxt("Field NULRB not found in UE config\n");
return;
}
srslte_pucch_t pucch;
if (srslte_pucch_init(&pucch, cell)) {
mexErrMsgTxt("Error initiating PUSCH\n");
return;
}
uint32_t sf_idx = 0;
if (mexutils_read_uint32_struct(UECFG, "NSubframe", &sf_idx)) {
mexErrMsgTxt("Field NSubframe not found in UE config\n");
return;
}
uint32_t rnti;
if (mexutils_read_uint32_struct(UECFG, "RNTI", &rnti)) {
mexErrMsgTxt("Field NSubframe not found in UE config\n");
return;
}
if (srslte_pucch_set_crnti(&pucch, (uint16_t) rnti&0xffff)) {
mexErrMsgTxt("Error setting C-RNTI\n");
return;
}
uint32_t n_pucch;
if (mexutils_read_uint32_struct(PUCCHCFG, "ResourceIdx", &n_pucch)) {
mexErrMsgTxt("Field ResourceIdx not found in PUCCHCFG\n");
return;
}
srslte_pucch_cfg_t pucch_cfg;
bzero(&pucch_cfg, sizeof(srslte_pucch_cfg_t));
if (mexutils_read_uint32_struct(PUCCHCFG, "DeltaShift", &pucch_cfg.delta_pucch_shift)) {
mexErrMsgTxt("Field DeltaShift not found in PUCCHCFG\n");
return;
}
if (mexutils_read_uint32_struct(PUCCHCFG, "ResourceSize", &pucch_cfg.n_rb_2)) {
mexErrMsgTxt("Field DeltaShift not found in PUCCHCFG\n");
return;
}
if (mexutils_read_uint32_struct(PUCCHCFG, "CyclicShifts", &pucch_cfg.N_cs)) {
mexErrMsgTxt("Field CyclicShifts not found in PUCCHCFG\n");
return;
}
bool group_hopping_en = false;
char *hop = mexutils_get_char_struct(UECFG, "Hopping");
if (hop) {
if (!strcmp(hop, "Group")) {
group_hopping_en = true;
}
mxFree(hop);
}
pucch.shortened = false;
uint32_t sh = 0;
mexutils_read_uint32_struct(PUCCHCFG, "Shortened", &sh);
if (sh == 1) {
pucch.shortened = true;
}
float *thresholds;
int th_len = 0;
if (nrhs > NOF_INPUTS) {
th_len = mexutils_read_f(THRESHOLD, &thresholds);
if (th_len == 2) {
srslte_pucch_set_threshold(&pucch, thresholds[0], thresholds[1]);
}
}
uint8_t bits[SRSLTE_PUCCH_MAX_BITS];
int nof_bits = (int) mxGetScalar(N_BITS);
srslte_pucch_format_t format;
switch(nof_bits) {
case 0:
format = SRSLTE_PUCCH_FORMAT_1;
break;
case 1:
format = SRSLTE_PUCCH_FORMAT_1A;
break;
case 2:
format = SRSLTE_PUCCH_FORMAT_1B;
break;
case 20:
format = SRSLTE_PUCCH_FORMAT_2;
break;
case 21:
format = SRSLTE_PUCCH_FORMAT_2A;
break;
case 22:
format = SRSLTE_PUCCH_FORMAT_2B;
break;
default:
mexErrMsgTxt("Invalid number of bits in parameter ack\n");
return;
}
if (nof_bits > 20) {
nof_bits = 20;
}
cf_t *sf_symbols = NULL;
int nof_re = mexutils_read_cf(INPUT, &sf_symbols);
if (nof_re < 0) {
mexErrMsgTxt("Error reading input\n");
return;
}
cf_t *ce = srslte_vec_malloc(nof_re*sizeof(cf_t));
if (!ce) {
perror("malloc");
return;
}
bzero(ce, nof_re*sizeof(cf_t));
srslte_chest_ul_t chest_ul;
if (srslte_chest_ul_init(&chest_ul, cell)) {
mexErrMsgTxt("Error initiating PUCCH DMRS\n");
return;
}
srslte_refsignal_dmrs_pusch_cfg_t pusch_cfg;
pusch_cfg.group_hopping_en = group_hopping_en;
pusch_cfg.sequence_hopping_en = false;
srslte_chest_ul_set_cfg(&chest_ul, &pusch_cfg, &pucch_cfg, NULL);
srslte_pucch_set_cfg(&pucch, &pucch_cfg, group_hopping_en);
if (srslte_chest_ul_estimate_pucch(&chest_ul, sf_symbols, ce, format, n_pucch, sf_idx)) {
mexErrMsgTxt("Error estimating PUCCH DMRS\n");
return;
}
if (srslte_pucch_decode(&pucch, format, n_pucch, sf_idx, sf_symbols, ce, 0, bits)) {
mexErrMsgTxt("Error decoding PUCCH\n");
return;
}
if (nlhs >= 1) {
if (format != SRSLTE_PUCCH_FORMAT_1) {
mexutils_write_uint8(bits, &plhs[0], nof_bits, 1);
} else {
if (bits[0] == 1) {
mexutils_write_uint8(bits, &plhs[0], 0, 1);
} else {
mexutils_write_uint8(bits, &plhs[0], 0, 0);
}
}
}
if (nlhs >= 2) {
mexutils_write_cf(pucch.z, &plhs[1], 2*srslte_refsignal_dmrs_N_rs(format, cell.cp)*SRSLTE_NRE*2, 1);
}
if (nlhs >= 3) {
mexutils_write_cf(ce, &plhs[2], nof_re, 1);
}
srslte_pucch_free(&pucch);
free(sf_symbols);
return;
}

2
srslte/lib/rf/rf_uhd_imp.c
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@ -315,7 +315,7 @@ int rf_uhd_open(char *args, void **h)
// Set external clock reference
if (strstr(args, "clock=external")) {
uhd_usrp_set_clock_source(handler->usrp, "external", 0);
uhd_usrp_set_clock_source(handler->usrp, "external", 0);
}
handler->has_rssi = get_has_rssi(handler);