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/*!
* \file gps_l1_ca_pcps_acquisition_gsoc2013_test.cc
* \brief This class implements an acquisition test for
* GpsL1CaPcpsMultithreadAcquisition class.
* \author Marc Molina, 2013. marc.molina.pena(at)gmail.com
*
*
* -------------------------------------------------------------------------
*
* Copyright (C) 2010-2012 (see AUTHORS file for a list of contributors)
*
* GNSS-SDR is a software defined Global Navigation
* Satellite Systems receiver
*
* This file is part of GNSS-SDR.
*
* GNSS-SDR is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* at your option) any later version.
*
* GNSS-SDR 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNSS-SDR. If not, see <http://www.gnu.org/licenses/>.
*
* -------------------------------------------------------------------------
*/
#include <gtest/gtest.h>
#include <sys/time.h>
#include <iostream>
#include <gnuradio/top_block.h>
#include <gnuradio/blocks/file_source.h>
#include <gnuradio/analog/sig_source_waveform.h>
#include <gnuradio/analog/sig_source_c.h>
#include <gnuradio/msg_queue.h>
#include <gnuradio/blocks/null_sink.h>
#include "gnss_block_interface.h"
#include "in_memory_configuration.h"
#include "configuration_interface.h"
#include "gnss_synchro.h"
#include "gps_l1_ca_pcps_multithread_acquisition.h"
#include "signal_generator.h"
//#include "signal_generator.cc"
#include "signal_generator_c.h"
//#include "signal_generator_c.cc"
#include "fir_filter.h"
#include "gen_signal_source.h"
#include "gnss_sdr_valve.h"
#include "boost/shared_ptr.hpp"
class GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test: public ::testing::Test
{
protected:
GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test()
{
queue = gr::msg_queue::make(0);
top_block = gr::make_top_block("Acquisition test");
item_size = sizeof(gr_complex);
stop = false;
message = 0;
}
~GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test()
{
}
void init();
void config_1();
void config_2();
void start_queue();
void wait_message();
void process_message();
void stop_queue();
gr::msg_queue::sptr queue;
gr::top_block_sptr top_block;
GpsL1CaPcpsMultithreadAcquisition *acquisition;
InMemoryConfiguration* config;
Gnss_Synchro gnss_synchro;
size_t item_size;
concurrent_queue<int> channel_internal_queue;
bool stop;
int message;
boost::thread ch_thread;
unsigned int integration_time_ms;
unsigned int fs_in;
double expected_delay_chips;
double expected_doppler_hz;
float max_doppler_error_hz;
float max_delay_error_chips;
unsigned int num_of_realizations;
unsigned int realization_counter;
unsigned int detection_counter;
unsigned int correct_estimation_counter;
unsigned int acquired_samples;
unsigned int mean_acq_time_us;
double mse_doppler;
double mse_delay;
double Pd;
double Pfa_p;
double Pfa_a;
};
void GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test::init()
{
message = 0;
realization_counter = 0;
detection_counter = 0;
correct_estimation_counter = 0;
acquired_samples = 0;
mse_doppler = 0;
mse_delay = 0;
mean_acq_time_us = 0;
Pd = 0;
Pfa_p = 0;
Pfa_a = 0;
}
void GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test::config_1()
{
gnss_synchro.Channel_ID = 0;
gnss_synchro.System = 'G';
std::string signal = "1C";
signal.copy(gnss_synchro.Signal,2,0);
integration_time_ms = 1;
fs_in = 4e6;
expected_delay_chips = 600;
expected_doppler_hz = 750;
max_doppler_error_hz = 2/(3*integration_time_ms*1e-3);
max_delay_error_chips = 0.50;
num_of_realizations = 1;
config = new InMemoryConfiguration();
config->set_property("GNSS-SDR.internal_fs_hz", std::to_string(fs_in));
config->set_property("SignalSource.fs_hz", std::to_string(fs_in));
config->set_property("SignalSource.item_type", "gr_complex");
config->set_property("SignalSource.num_satellites", "1");
config->set_property("SignalSource.system_0", "G");
config->set_property("SignalSource.PRN_0", "10");
config->set_property("SignalSource.CN0_dB_0", "44");
config->set_property("SignalSource.doppler_Hz_0", std::to_string(expected_doppler_hz));
config->set_property("SignalSource.delay_chips_0", std::to_string(expected_delay_chips));
config->set_property("SignalSource.noise_flag", "false");
config->set_property("SignalSource.data_flag", "false");
config->set_property("SignalSource.BW_BB", "0.97");
config->set_property("InputFilter.implementation", "Fir_Filter");
config->set_property("InputFilter.input_item_type", "gr_complex");
config->set_property("InputFilter.output_item_type", "gr_complex");
config->set_property("InputFilter.taps_item_type", "float");
config->set_property("InputFilter.number_of_taps", "11");
config->set_property("InputFilter.number_of_bands", "2");
config->set_property("InputFilter.band1_begin", "0.0");
config->set_property("InputFilter.band1_end", "0.97");
config->set_property("InputFilter.band2_begin", "0.98");
config->set_property("InputFilter.band2_end", "1.0");
config->set_property("InputFilter.ampl1_begin", "1.0");
config->set_property("InputFilter.ampl1_end", "1.0");
config->set_property("InputFilter.ampl2_begin", "0.0");
config->set_property("InputFilter.ampl2_end", "0.0");
config->set_property("InputFilter.band1_error", "1.0");
config->set_property("InputFilter.band2_error", "1.0");
config->set_property("InputFilter.filter_type", "bandpass");
config->set_property("InputFilter.grid_density", "16");
config->set_property("Acquisition.item_type", "gr_complex");
config->set_property("Acquisition.if", "0");
config->set_property("Acquisition.coherent_integration_time_ms",
std::to_string(integration_time_ms));
config->set_property("Acquisition.max_dwells", "1");
config->set_property("Acquisition.implementation", "GPS_L1_CA_PCPS_Multithread_Acquisition");
config->set_property("Acquisition.threshold", "0.8");
config->set_property("Acquisition.doppler_max", "10000");
config->set_property("Acquisition.doppler_step", "250");
config->set_property("Acquisition.bit_transition_flag", "false");
config->set_property("Acquisition.dump", "false");
}
void GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test::config_2()
{
gnss_synchro.Channel_ID = 0;
gnss_synchro.System = 'G';
std::string signal = "1C";
signal.copy(gnss_synchro.Signal,2,0);
integration_time_ms = 4;
fs_in = 4e6;
expected_delay_chips = 600;
expected_doppler_hz = 750;
max_doppler_error_hz = 2/(3*integration_time_ms*1e-3);
max_delay_error_chips = 0.50;
num_of_realizations = 100;
config = new InMemoryConfiguration();
config->set_property("GNSS-SDR.internal_fs_hz", std::to_string(fs_in));
config->set_property("SignalSource.fs_hz", std::to_string(fs_in));
config->set_property("SignalSource.item_type", "gr_complex");
config->set_property("SignalSource.num_satellites", "4");
config->set_property("SignalSource.system_0", "G");
config->set_property("SignalSource.PRN_0", "10");
config->set_property("SignalSource.CN0_dB_0", "44");
config->set_property("SignalSource.doppler_Hz_0", std::to_string(expected_doppler_hz));
config->set_property("SignalSource.delay_chips_0", std::to_string(expected_delay_chips));
config->set_property("SignalSource.system_1", "G");
config->set_property("SignalSource.PRN_1", "15");
config->set_property("SignalSource.CN0_dB_1", "44");
config->set_property("SignalSource.doppler_Hz_1", "1000");
config->set_property("SignalSource.delay_chips_1", "100");
config->set_property("SignalSource.system_2", "E");
config->set_property("SignalSource.PRN_2", "21");
config->set_property("SignalSource.CN0_dB_2", "44");
config->set_property("SignalSource.doppler_Hz_2", "2000");
config->set_property("SignalSource.delay_chips_2", "200");
config->set_property("SignalSource.system_3", "E");
config->set_property("SignalSource.PRN_3", "22");
config->set_property("SignalSource.CN0_dB_3", "44");
config->set_property("SignalSource.doppler_Hz_3", "3000");
config->set_property("SignalSource.delay_chips_3", "300");
config->set_property("SignalSource.noise_flag", "true");
config->set_property("SignalSource.data_flag", "true");
config->set_property("SignalSource.BW_BB", "0.97");
config->set_property("InputFilter.implementation", "Fir_Filter");
config->set_property("InputFilter.input_item_type", "gr_complex");
config->set_property("InputFilter.output_item_type", "gr_complex");
config->set_property("InputFilter.taps_item_type", "float");
config->set_property("InputFilter.number_of_taps", "11");
config->set_property("InputFilter.number_of_bands", "2");
config->set_property("InputFilter.band1_begin", "0.0");
config->set_property("InputFilter.band1_end", "0.97");
config->set_property("InputFilter.band2_begin", "0.98");
config->set_property("InputFilter.band2_end", "1.0");
config->set_property("InputFilter.ampl1_begin", "1.0");
config->set_property("InputFilter.ampl1_end", "1.0");
config->set_property("InputFilter.ampl2_begin", "0.0");
config->set_property("InputFilter.ampl2_end", "0.0");
config->set_property("InputFilter.band1_error", "1.0");
config->set_property("InputFilter.band2_error", "1.0");
config->set_property("InputFilter.filter_type", "bandpass");
config->set_property("InputFilter.grid_density", "16");
config->set_property("Acquisition.item_type", "gr_complex");
config->set_property("Acquisition.if", "0");
config->set_property("Acquisition.coherent_integration_time_ms",
std::to_string(integration_time_ms));
config->set_property("Acquisition.max_dwells", "1");
config->set_property("Acquisition.implementation", "GPS_L1_CA_PCPS_Multithread_Acquisition");
config->set_property("Acquisition.pfa", "1e-1");
config->set_property("Acquisition.doppler_max", "10000");
config->set_property("Acquisition.doppler_step", "250");
config->set_property("Acquisition.bit_transition_flag", "true");
config->set_property("Acquisition.dump", "false");
}
void GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test::start_queue()
{
stop = false;
ch_thread = boost::thread(&GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test::wait_message, this);
}
void GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test::wait_message()
{
struct timeval tv;
long long int begin = 0;
long long int end = 0;
while (!stop)
{
acquisition->reset();
gettimeofday(&tv, NULL);
begin = tv.tv_sec *1e6 + tv.tv_usec;
channel_internal_queue.wait_and_pop(message);
gettimeofday(&tv, NULL);
end = tv.tv_sec *1e6 + tv.tv_usec;
mean_acq_time_us += (end-begin);
process_message();
}
}
void GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test::process_message()
{
if (message == 1)
{
detection_counter++;
// The term -5 is here to correct the additional delay introduced by the FIR filter
double delay_error_chips = abs((double)expected_delay_chips - (double)(gnss_synchro.Acq_delay_samples-5)*1023.0/((double)fs_in*1e-3));
double doppler_error_hz = abs(expected_doppler_hz - gnss_synchro.Acq_doppler_hz);
mse_delay += std::pow(delay_error_chips, 2);
mse_doppler += std::pow(doppler_error_hz, 2);
if ((delay_error_chips < max_delay_error_chips) && (doppler_error_hz < max_doppler_error_hz))
{
correct_estimation_counter++;
}
}
realization_counter++;
std::cout << "Progress: " << round((float)realization_counter/num_of_realizations*100) << "% \r" << std::flush;
if (realization_counter == num_of_realizations)
{
mse_delay /= num_of_realizations;
mse_doppler /= num_of_realizations;
Pd = (double)correct_estimation_counter / (double)num_of_realizations;
Pfa_a = (double)detection_counter / (double)num_of_realizations;
Pfa_p = (double)(detection_counter-correct_estimation_counter) / (double)num_of_realizations;
mean_acq_time_us /= num_of_realizations;
stop_queue();
top_block->stop();
std::cout << std::endl;
}
}
void GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test::stop_queue()
{
stop = true;
}
TEST_F(GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test, Instantiate)
{
config_1();
acquisition = new GpsL1CaPcpsMultithreadAcquisition(config, "Acquisition", 1, 1, queue);
delete acquisition;
delete config;
}
TEST_F(GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test, ConnectAndRun)
{
int nsamples = floor(fs_in*integration_time_ms*1e-3);
struct timeval tv;
long long int begin = 0;
long long int end = 0;
config_1();
acquisition = new GpsL1CaPcpsMultithreadAcquisition(config, "Acquisition", 1, 1, queue);
ASSERT_NO_THROW( {
acquisition->connect(top_block);
boost::shared_ptr<gr::analog::sig_source_c> source = gr::analog::sig_source_c::make(fs_in, gr::analog::GR_SIN_WAVE, 1000, 1, gr_complex(0));
boost::shared_ptr<gr::block> valve = gnss_sdr_make_valve(sizeof(gr_complex), nsamples, queue);
top_block->connect(source, 0, valve, 0);
top_block->connect(valve, 0, acquisition->get_left_block(), 0);
}) << "Failure connecting the blocks of acquisition test."<< std::endl;
EXPECT_NO_THROW( {
gettimeofday(&tv, NULL);
begin = tv.tv_sec *1e6 + tv.tv_usec;
top_block->run(); // Start threads and wait
gettimeofday(&tv, NULL);
end = tv.tv_sec *1e6 + tv.tv_usec;
}) << "Failure running the top_block."<< std::endl;
std::cout << "Processed " << nsamples << " samples in " << (end-begin) << " microseconds" << std::endl;
delete acquisition;
delete config;
}
TEST_F(GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test, ValidationOfResults)
{
config_1();
acquisition = new GpsL1CaPcpsMultithreadAcquisition(config, "Acquisition", 1, 1, queue);
ASSERT_NO_THROW( {
acquisition->set_channel(1);
}) << "Failure setting channel."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_gnss_synchro(&gnss_synchro);
}) << "Failure setting gnss_synchro."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_channel_queue(&channel_internal_queue);
}) << "Failure setting channel_internal_queue."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_doppler_max(config->property("Acquisition.doppler_max", 10000));
}) << "Failure setting doppler_max."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_doppler_step(config->property("Acquisition.doppler_step", 500));
}) << "Failure setting doppler_step."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_threshold(config->property("Acquisition.threshold", 0.0));
}) << "Failure setting threshold."<< std::endl;
ASSERT_NO_THROW( {
acquisition->connect(top_block);
}) << "Failure connecting acquisition to the top_block."<< std::endl;
acquisition->init();
ASSERT_NO_THROW( {
boost::shared_ptr<GenSignalSource> signal_source;
SignalGenerator* signal_generator = new SignalGenerator(config, "SignalSource", 0, 1, queue);
FirFilter* filter = new FirFilter(config, "InputFilter", 1, 1, queue);
signal_source.reset(new GenSignalSource(config, signal_generator, filter, "SignalSource", queue));
signal_source->connect(top_block);
top_block->connect(signal_source->get_right_block(), 0, acquisition->get_left_block(), 0);
}) << "Failure connecting the blocks of acquisition test." << std::endl;
// i = 0 --> sallite in acquisition is visible
// i = 1 --> satellite in acquisition is not visible
for (unsigned int i = 0; i < 2; i++)
{
init();
if (i == 0)
{
gnss_synchro.PRN = 10; // This satellite is visible
}
else if (i == 1)
{
gnss_synchro.PRN = 20; // This satellite is not visible
}
acquisition->set_local_code();
start_queue();
EXPECT_NO_THROW( {
top_block->run(); // Start threads and wait
}) << "Failure running he top_block."<< std::endl;
if (i == 0)
{
EXPECT_EQ(1, message) << "Acquisition failure. Expected message: 1=ACQ SUCCESS.";
if (message == 1)
{
EXPECT_EQ(1, correct_estimation_counter) << "Acquisition failure. Incorrect parameters estimation.";
}
}
else if (i == 1)
{
EXPECT_EQ(2, message) << "Acquisition failure. Expected message: 2=ACQ FAIL.";
}
}
delete acquisition;
delete config;
}
TEST_F(GpsL1CaPcpsMultithreadAcquisitionGSoC2013Test, ValidationOfResultsProbabilities)
{
config_2();
acquisition = new GpsL1CaPcpsMultithreadAcquisition(config, "Acquisition", 1, 1, queue);
ASSERT_NO_THROW( {
acquisition->set_channel(1);
}) << "Failure setting channel."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_gnss_synchro(&gnss_synchro);
}) << "Failure setting gnss_synchro."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_channel_queue(&channel_internal_queue);
}) << "Failure setting channel_internal_queue."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_doppler_max(config->property("Acquisition.doppler_max", 10000));
}) << "Failure setting doppler_max."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_doppler_step(config->property("Acquisition.doppler_step", 500));
}) << "Failure setting doppler_step."<< std::endl;
ASSERT_NO_THROW( {
acquisition->set_threshold(config->property("Acquisition.threshold", 0.0));
}) << "Failure setting threshold."<< std::endl;
ASSERT_NO_THROW( {
acquisition->connect(top_block);
}) << "Failure connecting acquisition to the top_block."<< std::endl;
acquisition->init();
ASSERT_NO_THROW( {
boost::shared_ptr<GenSignalSource> signal_source;
SignalGenerator* signal_generator = new SignalGenerator(config, "SignalSource", 0, 1, queue);
FirFilter* filter = new FirFilter(config, "InputFilter", 1, 1, queue);
signal_source.reset(new GenSignalSource(config, signal_generator, filter, "SignalSource", queue));
signal_source->connect(top_block);
top_block->connect(signal_source->get_right_block(), 0, acquisition->get_left_block(), 0);
}) << "Failure connecting the blocks of acquisition test." << std::endl;
std::cout << "Probability of false alarm (target) = " << 0.1 << std::endl;
// i = 0 --> sallite in acquisition is visible (prob of detection and prob of detection with wrong estimation)
// i = 1 --> satellite in acquisition is not visible (prob of false detection)
for (unsigned int i = 0; i < 2; i++)
{
init();
if (i == 0)
{
gnss_synchro.PRN = 10; // This satellite is visible
}
else if (i == 1)
{
gnss_synchro.PRN = 20; // This satellite is not visible
}
acquisition->set_local_code();
start_queue();
EXPECT_NO_THROW( {
top_block->run(); // Start threads and wait
}) << "Failure running he top_block."<< std::endl;
if (i == 0)
{
std::cout << "Probability of detection = " << Pd << std::endl;
std::cout << "Probability of false alarm (satellite present) = " << Pfa_p << std::endl;
// std::cout << "Mean acq time = " << mean_acq_time_us << " microseconds." << std::endl;
}
else if (i == 1)
{
std::cout << "Probability of false alarm (satellite absent) = " << Pfa_a << std::endl;
// std::cout << "Mean acq time = " << mean_acq_time_us << " microseconds." << std::endl;
}
}
delete acquisition;
delete config;
}
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