mirror of
https://github.com/gnss-sdr/gnss-sdr
synced 2024-12-15 04:30:33 +00:00
Migrate pcps_acq_sc to new grid
This commit is contained in:
parent
eb7cf3e7bb
commit
41712e4722
@ -36,7 +36,8 @@
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#include "pcps_acquisition_sc.h"
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#include <sstream>
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#include <boost/filesystem.hpp>
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#include <cstring>
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#include <matio.h>
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#include <gnuradio/io_signature.h>
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#include <glog/logging.h>
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#include <volk/volk.h>
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@ -44,8 +45,6 @@
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#include "GPS_L1_CA.h" //GPS_TWO_PI
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#include "GLONASS_L1_CA.h" //GLONASS_TWO_PI
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using google::LogMessage;
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pcps_acquisition_sc_sptr pcps_make_acquisition_sc(
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@ -88,7 +87,7 @@ pcps_acquisition_sc::pcps_acquisition_sc(
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d_well_count = 0;
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d_doppler_max = doppler_max;
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d_fft_size = d_sampled_ms * d_samples_per_ms;
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d_mag = 0;
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d_mag = 0.0;
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d_input_power = 0.0;
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d_num_doppler_bins = 0;
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d_bit_transition_flag = bit_transition_flag;
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@ -98,9 +97,6 @@ pcps_acquisition_sc::pcps_acquisition_sc(
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d_code_phase = 0;
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d_test_statistics = 0.0;
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d_channel = 0;
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d_doppler_freq = 0.0;
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//set_relative_rate( 1.0/d_fft_size );
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// COD:
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// Experimenting with the overlap/save technique for handling bit trannsitions
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@ -133,15 +129,12 @@ pcps_acquisition_sc::pcps_acquisition_sc(
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// For dumping samples into a file
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d_dump = dump;
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d_dump_filename = dump_filename;
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d_gnss_synchro = 0;
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d_grid_doppler_wipeoffs = 0;
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d_done = false;
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d_blocking = blocking;
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d_new_data_available = false;
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d_worker_active = false;
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d_data_buffer = static_cast<lv_16sc_t*>(volk_gnsssdr_malloc(d_fft_size * sizeof(lv_16sc_t), volk_gnsssdr_get_alignment()));
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grid_ = arma::fmat();
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}
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@ -155,31 +148,11 @@ pcps_acquisition_sc::~pcps_acquisition_sc()
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}
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delete[] d_grid_doppler_wipeoffs;
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}
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volk_gnsssdr_free(d_fft_codes);
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volk_gnsssdr_free(d_magnitude);
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volk_gnsssdr_free(d_in_32fc);
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delete d_ifft;
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delete d_fft_if;
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if (d_dump)
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{
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d_dump_file.close();
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}
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// Let the worker thread know that we are done and then wait to join
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if( d_worker_thread.joinable() )
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{
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{
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std::lock_guard<std::mutex> lk( d_mutex );
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d_done = true;
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d_cond.notify_one();
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}
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d_worker_thread.join();
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}
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volk_gnsssdr_free(d_data_buffer);
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}
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@ -263,10 +236,13 @@ void pcps_acquisition_sc::init()
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int doppler = -static_cast<int>(d_doppler_max) + d_doppler_step * doppler_index;
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update_local_carrier(d_grid_doppler_wipeoffs[doppler_index], d_fft_size, d_freq + doppler);
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}
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d_new_data_available = false;
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d_done = false;
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d_worker_active = false;
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if(d_dump)
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{
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unsigned int effective_fft_size = (d_bit_transition_flag ? (d_fft_size / 2) : d_fft_size);
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grid_ = arma::fmat(effective_fft_size, d_num_doppler_bins, arma::fill::zeros);
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}
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}
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void pcps_acquisition_sc::update_grid_doppler_wipeoffs()
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@ -296,6 +272,7 @@ void pcps_acquisition_sc::set_state(int state)
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d_mag = 0.0;
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d_input_power = 0.0;
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d_test_statistics = 0.0;
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d_active = true;
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}
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else if (d_state == 0)
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{}
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@ -342,7 +319,7 @@ void pcps_acquisition_sc::send_negative_acquisition()
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}
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int pcps_acquisition_sc::general_work(int noutput_items,
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int pcps_acquisition_sc::general_work(int noutput_items __attribute__((unused)),
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gr_vector_int &ninput_items, gr_vector_const_void_star &input_items,
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gr_vector_void_star &output_items __attribute__((unused)))
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{
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@ -357,11 +334,17 @@ int pcps_acquisition_sc::general_work(int noutput_items,
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* 6. Declare positive or negative acquisition using a message port
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*/
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gr::thread::scoped_lock lk(d_setlock);
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if(!d_active || d_worker_active)
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{
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d_sample_counter += d_fft_size * ninput_items[0];
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consume_each(ninput_items[0]);
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return 0;
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}
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switch(d_state)
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{
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case 0:
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{
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if (d_active)
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{
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//restart acquisition variables
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d_gnss_synchro->Acq_delay_samples = 0.0;
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@ -372,76 +355,37 @@ int pcps_acquisition_sc::general_work(int noutput_items,
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d_input_power = 0.0;
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d_test_statistics = 0.0;
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d_state = 1;
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}
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d_sample_counter += d_fft_size * ninput_items[0]; // sample counter
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consume_each(ninput_items[0]);
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break;
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}
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case 1:
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{
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std::unique_lock<std::mutex> lk( d_mutex );
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int num_items_consumed = 1;
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if( d_worker_active )
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{
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if( d_blocking )
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{
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// Should never get here:
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std::string msg = "pcps_acquisition_sc: Entered general work with worker active in blocking mode, should never happen";
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LOG(WARNING) << msg;
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std::cout << msg << std::endl;
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d_cond.wait( lk, [&]{ return !this->d_worker_active; } );
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}
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else
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{
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num_items_consumed = ninput_items[0];
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d_sample_counter += d_fft_size * num_items_consumed;
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}
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}
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else
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{
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// Copy the data to the core and let it know that new data is available
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memcpy(d_data_buffer, input_items[0], d_fft_size * sizeof(lv_16sc_t));
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d_new_data_available = true;
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d_cond.notify_one();
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if(d_blocking)
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{
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d_cond.wait( lk, [&]{ return !this->d_new_data_available; } );
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}
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}
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consume_each(num_items_consumed);
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break;
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} // case 1, switch d_state
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} // switch d_state
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return noutput_items;
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}
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void pcps_acquisition_sc::acquisition_core( void )
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{
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d_worker_active = false;
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while( 1 )
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{
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std::unique_lock<std::mutex> lk( d_mutex );
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d_cond.wait( lk, [&]{ return this->d_new_data_available or this->d_done; } );
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d_worker_active = !d_done;
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unsigned long int sample_counter = d_sample_counter; // sample counter
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lk.unlock();
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if( d_done )
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acquisition_core(d_sample_counter);
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}
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else
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{
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gr::thread::thread d_worker(&pcps_acquisition_sc::acquisition_core, this, d_sample_counter);
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d_worker_active = true;
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}
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d_sample_counter += d_fft_size;
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consume_each(1);
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break;
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}
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}
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return 0;
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}
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void pcps_acquisition_sc::acquisition_core( unsigned long int samp_count )
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{
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gr::thread::scoped_lock lk(d_setlock);
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// initialize acquisition algorithm
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int doppler;
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@ -451,23 +395,22 @@ void pcps_acquisition_sc::acquisition_core( void )
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int effective_fft_size = ( d_bit_transition_flag ? d_fft_size/2 : d_fft_size );
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//TODO: optimize the signal processing chain to not use gr_complex. This is a temporary solution
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volk_gnsssdr_16ic_convert_32fc(d_in_32fc, in, effective_fft_size);
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float fft_normalization_factor = static_cast<float>(d_fft_size) * static_cast<float>(d_fft_size);
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d_input_power = 0.0;
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d_mag = 0.0;
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d_well_count++;
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volk_gnsssdr_16ic_convert_32fc(d_in_32fc, in, effective_fft_size);
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DLOG(INFO) << "Channel: " << d_channel
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<< " , doing acquisition of satellite: " << d_gnss_synchro->System << " " << d_gnss_synchro->PRN
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<< " ,sample stamp: " << sample_counter << ", threshold: "
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<< " ,sample stamp: " << samp_count << ", threshold: "
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<< d_threshold << ", doppler_max: " << d_doppler_max
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<< ", doppler_step: " << d_doppler_step
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<< ", use_CFAR_algorithm_flag: " << ( d_use_CFAR_algorithm_flag ? "true" : "false" );
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if (d_use_CFAR_algorithm_flag == true)
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lk.unlock();
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if (d_use_CFAR_algorithm_flag)
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{
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// 1- (optional) Compute the input signal power estimation
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volk_32fc_magnitude_squared_32f(d_magnitude, d_in_32fc, d_fft_size);
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@ -480,8 +423,7 @@ void pcps_acquisition_sc::acquisition_core( void )
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// doppler search steps
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doppler = -static_cast<int>(d_doppler_max) + d_doppler_step * doppler_index;
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volk_32fc_x2_multiply_32fc(d_fft_if->get_inbuf(), d_in_32fc,
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d_grid_doppler_wipeoffs[doppler_index], d_fft_size);
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volk_32fc_x2_multiply_32fc(d_fft_if->get_inbuf(), d_in_32fc, d_grid_doppler_wipeoffs[doppler_index], d_fft_size);
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// 3- Perform the FFT-based convolution (parallel time search)
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// Compute the FFT of the carrier wiped--off incoming signal
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@ -489,8 +431,7 @@ void pcps_acquisition_sc::acquisition_core( void )
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// Multiply carrier wiped--off, Fourier transformed incoming signal
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// with the local FFT'd code reference using SIMD operations with VOLK library
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volk_32fc_x2_multiply_32fc(d_ifft->get_inbuf(),
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d_fft_if->get_outbuf(), d_fft_codes, d_fft_size);
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volk_32fc_x2_multiply_32fc(d_ifft->get_inbuf(), d_fft_if->get_outbuf(), d_fft_codes, d_fft_size);
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// compute the inverse FFT
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d_ifft->execute();
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@ -501,7 +442,7 @@ void pcps_acquisition_sc::acquisition_core( void )
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volk_gnsssdr_32f_index_max_32u(&indext, d_magnitude, effective_fft_size);
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magt = d_magnitude[indext];
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if (d_use_CFAR_algorithm_flag == true)
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if (d_use_CFAR_algorithm_flag)
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{
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// Normalize the maximum value to correct the scale factor introduced by FFTW
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magt = d_magnitude[indext] / (fft_normalization_factor * fft_normalization_factor);
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@ -511,7 +452,7 @@ void pcps_acquisition_sc::acquisition_core( void )
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{
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d_mag = magt;
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if (d_use_CFAR_algorithm_flag == false)
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if (!d_use_CFAR_algorithm_flag)
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{
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// Search grid noise floor approximation for this doppler line
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volk_32f_accumulator_s32f(&d_input_power, d_magnitude, effective_fft_size);
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@ -530,39 +471,57 @@ void pcps_acquisition_sc::acquisition_core( void )
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{
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d_gnss_synchro->Acq_delay_samples = static_cast<double>(indext % d_samples_per_code);
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d_gnss_synchro->Acq_doppler_hz = static_cast<double>(doppler);
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d_gnss_synchro->Acq_samplestamp_samples = sample_counter;
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d_gnss_synchro->Acq_samplestamp_samples = samp_count;
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// 5- Compute the test statistics and compare to the threshold
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//d_test_statistics = 2 * d_fft_size * d_mag / d_input_power;
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d_test_statistics = d_mag / d_input_power;
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}
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}
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// Record results to file if required
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if (d_dump)
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{
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std::stringstream filename;
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std::streamsize n = 2 * sizeof(float) * (d_fft_size); // complex file write
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filename.str("");
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memcpy(grid_.colptr(doppler_index), d_magnitude, sizeof(float) * effective_fft_size);
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if(doppler_index == (d_num_doppler_bins - 1))
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{
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std::string filename = d_dump_filename;
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filename.append("_");
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filename.append(1, d_gnss_synchro->System);
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filename.append("_");
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filename.append(1, d_gnss_synchro->Signal[0]);
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filename.append(1, d_gnss_synchro->Signal[1]);
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filename.append("_sat_");
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filename.append(std::to_string(d_gnss_synchro->PRN));
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filename.append(".mat");
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mat_t* matfp = Mat_CreateVer(filename.c_str(), NULL, MAT_FT_MAT73);
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if(matfp == NULL)
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{
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std::cout << "Unable to create or open Acquisition dump file" << std::endl;
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d_dump = false;
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}
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else
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{
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size_t dims[2] = {static_cast<size_t>(effective_fft_size), static_cast<size_t>(d_num_doppler_bins)};
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matvar_t* matvar = Mat_VarCreate("grid", MAT_C_SINGLE, MAT_T_SINGLE, 2, dims, grid_.memptr(), 0);
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Mat_VarWrite(matfp, matvar, MAT_COMPRESSION_ZLIB); // or MAT_COMPRESSION_NONE
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Mat_VarFree(matvar);
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boost::filesystem::path p = d_dump_filename;
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filename << p.parent_path().string()
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<< boost::filesystem::path::preferred_separator
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<< p.stem().string()
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<< "_" << d_gnss_synchro->System
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<<"_" << d_gnss_synchro->Signal << "_sat_"
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<< d_gnss_synchro->PRN << "_doppler_"
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<< doppler
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<< p.extension().string();
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dims[0] = static_cast<size_t>(1);
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dims[1] = static_cast<size_t>(1);
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matvar = Mat_VarCreate("doppler_max", MAT_C_SINGLE, MAT_T_UINT32, 1, dims, &d_doppler_max, 0);
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Mat_VarWrite(matfp, matvar, MAT_COMPRESSION_ZLIB); // or MAT_COMPRESSION_NONE
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Mat_VarFree(matvar);
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DLOG(INFO) << "Writing ACQ out to " << filename.str();
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matvar = Mat_VarCreate("doppler_step", MAT_C_SINGLE, MAT_T_UINT32, 1, dims, &d_doppler_step, 0);
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Mat_VarWrite(matfp, matvar, MAT_COMPRESSION_ZLIB); // or MAT_COMPRESSION_NONE
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Mat_VarFree(matvar);
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d_dump_file.open(filename.str().c_str(), std::ios::out | std::ios::binary);
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d_dump_file.write(reinterpret_cast<char*>(d_ifft->get_outbuf()), n); //write directly |abs(x)|^2 in this Doppler bin?
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d_dump_file.close();
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Mat_Close(matfp);
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}
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}
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}
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}
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lk.lock();
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if (!d_bit_transition_flag)
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{
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if (d_test_statistics > d_threshold)
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@ -596,41 +555,5 @@ void pcps_acquisition_sc::acquisition_core( void )
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}
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}
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}
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lk.lock();
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d_worker_active = false;
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d_new_data_available = false;
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lk.unlock();
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d_cond.notify_one();
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}
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}
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bool pcps_acquisition_sc::start( void )
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{
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d_worker_active = false;
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d_done = false;
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// Start the worker thread and wait for it to acknowledge:
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d_worker_thread = std::move( std::thread( &pcps_acquisition_sc::acquisition_core, this ) );
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return gr::block::start();
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}
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bool pcps_acquisition_sc::stop( void )
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{
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// Let the worker thread know that we are done and then wait to join
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if( d_worker_thread.joinable() )
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{
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{
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std::lock_guard<std::mutex> lk( d_mutex );
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d_done = true;
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d_cond.notify_one();
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}
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d_worker_thread.join();
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}
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return gr::block::stop();
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}
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@ -51,13 +51,9 @@
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#ifndef GNSS_SDR_PCPS_ACQUISITION_SC_H_
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#define GNSS_SDR_PCPS_ACQUISITION_SC_H_
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#include <fstream>
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#include <string>
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#include <mutex>
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#include <thread>
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#include <condition_variable>
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#include <armadillo>
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#include <gnuradio/block.h>
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#include <gnuradio/gr_complex.h>
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#include <gnuradio/fft/fft.h>
|
||||
#include <volk_gnsssdr/volk_gnsssdr.h>
|
||||
#include "gnss_synchro.h"
|
||||
@ -101,7 +97,7 @@ private:
|
||||
|
||||
void update_local_carrier(gr_complex* carrier_vector, int correlator_length_samples, float freq);
|
||||
|
||||
void acquisition_core( void );
|
||||
void acquisition_core( unsigned long int samp_count );
|
||||
|
||||
void update_grid_doppler_wipeoffs();
|
||||
bool is_fdma();
|
||||
@ -109,53 +105,42 @@ private:
|
||||
void send_negative_acquisition();
|
||||
void send_positive_acquisition();
|
||||
|
||||
bool d_bit_transition_flag;
|
||||
bool d_use_CFAR_algorithm_flag;
|
||||
bool d_active;
|
||||
bool d_dump;
|
||||
bool d_worker_active;
|
||||
bool d_blocking;
|
||||
float d_threshold;
|
||||
float d_mag;
|
||||
float d_input_power;
|
||||
float d_test_statistics;
|
||||
float* d_magnitude;
|
||||
long d_fs_in;
|
||||
long d_freq;
|
||||
long d_old_freq;
|
||||
int d_samples_per_ms;
|
||||
int d_samples_per_code;
|
||||
//unsigned int d_doppler_resolution;
|
||||
float d_threshold;
|
||||
std::string d_satellite_str;
|
||||
int d_state;
|
||||
unsigned int d_channel;
|
||||
unsigned int d_doppler_max;
|
||||
unsigned int d_doppler_step;
|
||||
unsigned int d_sampled_ms;
|
||||
unsigned int d_max_dwells;
|
||||
unsigned int d_well_count;
|
||||
unsigned int d_fft_size;
|
||||
unsigned long int d_sample_counter;
|
||||
gr_complex** d_grid_doppler_wipeoffs;
|
||||
unsigned int d_num_doppler_bins;
|
||||
unsigned int d_code_phase;
|
||||
unsigned long int d_sample_counter;
|
||||
lv_16sc_t* d_data_buffer;
|
||||
gr_complex** d_grid_doppler_wipeoffs;
|
||||
gr_complex* d_fft_codes;
|
||||
gr_complex* d_in_32fc;
|
||||
gr::fft::fft_complex* d_fft_if;
|
||||
gr::fft::fft_complex* d_ifft;
|
||||
Gnss_Synchro* d_gnss_synchro;
|
||||
unsigned int d_code_phase;
|
||||
float d_doppler_freq;
|
||||
float d_mag;
|
||||
float* d_magnitude;
|
||||
float d_input_power;
|
||||
float d_test_statistics;
|
||||
bool d_bit_transition_flag;
|
||||
bool d_use_CFAR_algorithm_flag;
|
||||
std::ofstream d_dump_file;
|
||||
bool d_active;
|
||||
int d_state;
|
||||
bool d_dump;
|
||||
unsigned int d_channel;
|
||||
std::string d_dump_filename;
|
||||
|
||||
std::thread d_worker_thread;
|
||||
std::mutex d_mutex;
|
||||
|
||||
std::condition_variable d_cond;
|
||||
bool d_done;
|
||||
bool d_new_data_available;
|
||||
bool d_worker_active;
|
||||
bool d_blocking;
|
||||
|
||||
lv_16sc_t *d_data_buffer;
|
||||
arma::fmat grid_;
|
||||
|
||||
public:
|
||||
/*!
|
||||
@ -259,15 +244,6 @@ public:
|
||||
gr_vector_const_void_star &input_items,
|
||||
gr_vector_void_star &output_items);
|
||||
|
||||
/*!
|
||||
* Called by the flowgraph when processing is about to start.
|
||||
*/
|
||||
bool start( void );
|
||||
|
||||
/*!
|
||||
* Called by the flowgraph when processing is done.
|
||||
*/
|
||||
bool stop( void );
|
||||
};
|
||||
|
||||
#endif /* GNSS_SDR_PCPS_ACQUISITION_SC_H_*/
|
||||
|
Loading…
Reference in New Issue
Block a user