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https://github.com/gnss-sdr/gnss-sdr
synced 2024-12-15 12:40:35 +00:00
Accept non-integer number of samples per code period
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@ -64,6 +64,11 @@ GalileoE1PcpsAmbiguousAcquisition::GalileoE1PcpsAmbiguousAcquisition(
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acq_parameters.doppler_max = doppler_max_;
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sampled_ms_ = configuration_->property(role + ".coherent_integration_time_ms", 4);
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acq_parameters.sampled_ms = sampled_ms_;
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if ((acq_parameters.sampled_ms % 4) != 0)
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{
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LOG(WARNING) << "Parameter coherent_integration_time_ms should be a multiple of 4. Setting it to 4";
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acq_parameters.sampled_ms = 4;
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}
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bit_transition_flag_ = configuration_->property(role + ".bit_transition_flag", false);
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acq_parameters.bit_transition_flag = bit_transition_flag_;
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use_CFAR_algorithm_flag_ = configuration_->property(role + ".use_CFAR_algorithm", true); //will be false in future versions
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@ -80,9 +85,10 @@ GalileoE1PcpsAmbiguousAcquisition::GalileoE1PcpsAmbiguousAcquisition(
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acq_parameters.dump_filename = dump_filename_;
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//--- Find number of samples per spreading code (4 ms) -----------------
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code_length_ = static_cast<unsigned int>(std::round(static_cast<double>(fs_in_) / (Galileo_E1_CODE_CHIP_RATE_HZ / Galileo_E1_B_CODE_LENGTH_CHIPS)));
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acq_parameters.samples_per_code = code_length_;
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int samples_per_ms = static_cast<int>(std::round(static_cast<double>(fs_in_) * 0.001));
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float samples_per_ms = static_cast<float>(fs_in_) * 0.001;
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acq_parameters.samples_per_ms = samples_per_ms;
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acq_parameters.samples_per_code = acq_parameters.samples_per_ms * static_cast<float>(Galileo_E1_CODE_PERIOD_MS);
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vector_length_ = sampled_ms_ * samples_per_ms;
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if (bit_transition_flag_)
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@ -101,9 +101,9 @@ GalileoE5aPcpsAcquisition::GalileoE5aPcpsAcquisition(ConfigurationInterface* con
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LOG(WARNING) << item_type_ << " unknown acquisition item type";
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}
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acq_parameters.it_size = item_size_;
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acq_parameters.samples_per_code = code_length_;
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acq_parameters.samples_per_ms = code_length_;
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acq_parameters.samples_per_ms = static_cast<float>(fs_in_) * 0.001;
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acq_parameters.sampled_ms = sampled_ms_;
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acq_parameters.samples_per_code = acq_parameters.samples_per_ms * static_cast<float>(GALILEO_E5a_CODE_PERIOD_MS);
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acq_parameters.num_doppler_bins_step2 = configuration_->property(role + ".second_nbins", 4);
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acq_parameters.doppler_step2 = configuration_->property(role + ".second_doppler_step", 125.0);
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acq_parameters.make_2_steps = configuration_->property(role + ".make_two_steps", false);
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@ -100,8 +100,8 @@ GlonassL1CaPcpsAcquisition::GlonassL1CaPcpsAcquisition(
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}
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acq_parameters.it_size = item_size_;
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acq_parameters.sampled_ms = sampled_ms_;
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acq_parameters.samples_per_ms = code_length_;
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acq_parameters.samples_per_code = code_length_;
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acq_parameters.samples_per_ms = static_cast<float>(fs_in_) * 0.001;
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acq_parameters.samples_per_code = acq_parameters.samples_per_ms * static_cast<float>(GLONASS_L1_CA_CODE_PERIOD);
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acq_parameters.num_doppler_bins_step2 = configuration_->property(role + ".second_nbins", 4);
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acq_parameters.doppler_step2 = configuration_->property(role + ".second_doppler_step", 125.0);
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acq_parameters.make_2_steps = configuration_->property(role + ".make_two_steps", false);
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@ -99,8 +99,8 @@ GlonassL2CaPcpsAcquisition::GlonassL2CaPcpsAcquisition(
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}
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acq_parameters.it_size = item_size_;
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acq_parameters.sampled_ms = sampled_ms_;
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acq_parameters.samples_per_ms = code_length_;
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acq_parameters.samples_per_code = code_length_;
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acq_parameters.samples_per_ms = static_cast<float>(fs_in_) * 0.001;
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acq_parameters.samples_per_code = acq_parameters.samples_per_ms * static_cast<float>(GLONASS_L2_CA_CODE_PERIOD * 1000.0);
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acq_parameters.num_doppler_bins_step2 = configuration_->property(role + ".second_nbins", 4);
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acq_parameters.doppler_step2 = configuration_->property(role + ".second_doppler_step", 125.0);
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acq_parameters.make_2_steps = configuration_->property(role + ".make_two_steps", false);
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@ -102,8 +102,8 @@ GpsL1CaPcpsAcquisition::GpsL1CaPcpsAcquisition(
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{
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item_size_ = sizeof(gr_complex);
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}
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acq_parameters.samples_per_ms = code_length_;
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acq_parameters.samples_per_code = code_length_;
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acq_parameters.samples_per_ms = static_cast<float>(fs_in_) * 0.001;
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acq_parameters.samples_per_code = acq_parameters.samples_per_ms * static_cast<float>(GPS_L1_CA_CODE_PERIOD * 1000.0);
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acq_parameters.it_size = item_size_;
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acq_parameters.blocking_on_standby = configuration_->property(role + ".blocking_on_standby", false);
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acquisition_ = pcps_make_acquisition(acq_parameters);
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@ -78,11 +78,16 @@ GpsL2MPcpsAcquisition::GpsL2MPcpsAcquisition(
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dump_filename_ = configuration_->property(role + ".dump_filename", default_dump_filename);
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acq_parameters.dump_filename = dump_filename_;
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//--- Find number of samples per spreading code -------------------------
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//code_length_ = std::round(static_cast<double>(fs_in_) / (GPS_L2_M_CODE_RATE_HZ / static_cast<double>(GPS_L2_M_CODE_LENGTH_CHIPS)));
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acq_parameters.samples_per_ms = static_cast<int>(std::round(static_cast<double>(fs_in_) * 0.001));
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acq_parameters.samples_per_ms = static_cast<float>(fs_in_) * 0.001;
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acq_parameters.sampled_ms = configuration_->property(role + ".coherent_integration_time_ms", 20);
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if ((acq_parameters.sampled_ms % 20) != 0)
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{
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LOG(WARNING) << "Parameter coherent_integration_time_ms should be a multiple of 20. Setting it to 20";
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acq_parameters.sampled_ms = 20;
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}
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code_length_ = acq_parameters.sampled_ms * acq_parameters.samples_per_ms * (acq_parameters.bit_transition_flag ? 2 : 1);
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vector_length_ = code_length_;
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if (bit_transition_flag_)
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@ -101,7 +106,7 @@ GpsL2MPcpsAcquisition::GpsL2MPcpsAcquisition(
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item_size_ = sizeof(gr_complex);
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}
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acq_parameters.samples_per_code = code_length_;
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acq_parameters.samples_per_code = acq_parameters.samples_per_ms * static_cast<float>(GPS_L2_M_PERIOD * 1000.0);
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acq_parameters.it_size = item_size_;
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acq_parameters.num_doppler_bins_step2 = configuration_->property(role + ".second_nbins", 4);
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@ -96,10 +96,10 @@ GpsL5iPcpsAcquisition::GpsL5iPcpsAcquisition(
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{
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item_size_ = sizeof(gr_complex);
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}
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acq_parameters.samples_per_code = code_length_;
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acq_parameters.samples_per_ms = code_length_;
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acq_parameters.samples_per_ms = static_cast<float>(fs_in_) * 0.001;
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acq_parameters.samples_per_code = acq_parameters.samples_per_ms * static_cast<float>(GPS_L5i_PERIOD * 1000.0);
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acq_parameters.it_size = item_size_;
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acq_parameters.sampled_ms = 1;
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acq_parameters.sampled_ms = configuration_->property(role + ".coherent_integration_time_ms", 1);
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acq_parameters.num_doppler_bins_step2 = configuration_->property(role + ".second_nbins", 4);
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acq_parameters.doppler_step2 = configuration_->property(role + ".second_doppler_step", 125.0);
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acq_parameters.make_2_steps = configuration_->property(role + ".make_two_steps", false);
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@ -565,7 +565,6 @@ void pcps_acquisition::acquisition_core(unsigned long int samp_count)
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gr::thread::scoped_lock lk(d_setlock);
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// initialize acquisition algorithm
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float magt = 0.0;
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int doppler = 0;
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uint32_t indext = 0;
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int effective_fft_size = (acq_parameters.bit_transition_flag ? d_fft_size / 2 : d_fft_size);
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@ -582,7 +581,6 @@ void pcps_acquisition::acquisition_core(unsigned long int samp_count)
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}
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}
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const gr_complex* in = d_input_signal; // Get the input samples pointer
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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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@ -650,7 +648,7 @@ void pcps_acquisition::acquisition_core(unsigned long int samp_count)
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{
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d_test_statistics = first_vs_second_peak_statistic(indext, doppler, d_num_doppler_bins, acq_parameters.doppler_max, d_doppler_step);
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}
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d_gnss_synchro->Acq_delay_samples = static_cast<double>(indext % acq_parameters.samples_per_code);
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d_gnss_synchro->Acq_delay_samples = static_cast<double>(std::fmod(static_cast<float>(indext), acq_parameters.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 = samp_count;
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}
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@ -691,7 +689,7 @@ void pcps_acquisition::acquisition_core(unsigned long int samp_count)
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{
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d_test_statistics = first_vs_second_peak_statistic(indext, doppler, acq_parameters.num_doppler_bins_step2, static_cast<int>(d_doppler_center_step_two - (static_cast<float>(acq_parameters.num_doppler_bins_step2) / 2.0) * acq_parameters.doppler_step2), acq_parameters.doppler_step2);
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}
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d_gnss_synchro->Acq_delay_samples = static_cast<double>(indext % acq_parameters.samples_per_code);
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d_gnss_synchro->Acq_delay_samples = static_cast<double>(std::fmod(static_cast<float>(indext), acq_parameters.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 = samp_count;
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}
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@ -41,8 +41,8 @@ Acq_Conf::Acq_Conf()
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num_doppler_bins_step2 = 0;
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doppler_step2 = 0.0;
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fs_in = 0;
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samples_per_ms = 0;
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samples_per_code = 0;
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samples_per_ms = 0.0;
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samples_per_code = 0.0;
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bit_transition_flag = false;
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use_CFAR_algorithm_flag = false;
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dump = false;
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@ -46,8 +46,8 @@ public:
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unsigned int num_doppler_bins_step2;
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float doppler_step2;
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long fs_in;
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int samples_per_ms;
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int samples_per_code;
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float samples_per_ms;
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float samples_per_code;
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bool bit_transition_flag;
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bool use_CFAR_algorithm_flag;
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bool dump;
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