mirror of
https://github.com/gnss-sdr/gnss-sdr
synced 2024-12-15 04:30:33 +00:00
Updates to integration of bayesian_estimation library into GPS L1 kalman tracking block
This commit is contained in:
parent
032e73e727
commit
e42467a068
@ -64,6 +64,11 @@ GpsL1CaKfTracking::GpsL1CaKfTracking(
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float pll_bw_hz;
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float dll_bw_hz;
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float early_late_space_chips;
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bool bce_run;
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unsigned int bce_ptrans;
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unsigned int bce_strans;
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int bce_nu;
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int bce_kappa;
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item_type = configuration->property(role + ".item_type", default_item_type);
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order = configuration->property(role + ".order", 2);
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@ -78,6 +83,12 @@ GpsL1CaKfTracking::GpsL1CaKfTracking(
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dump_filename = configuration->property(role + ".dump_filename", default_dump_filename);
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vector_length = std::round(fs_in / (GPS_L1_CA_CODE_RATE_HZ / GPS_L1_CA_CODE_LENGTH_CHIPS));
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bce_run = configuration->property(role + ".bce_run", false);
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bce_ptrans = configuration->property(role + ".p_transient", 0);
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bce_strans = configuration->property(role + ".s_transient", 0);
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bce_nu = configuration->property(role + ".bce_nu", 0);
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bce_kappa = configuration->property(role + ".bce_kappa", 0);
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//################# MAKE TRACKING GNURadio object ###################
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if (item_type.compare("gr_complex") == 0)
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{
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@ -90,7 +101,12 @@ GpsL1CaKfTracking::GpsL1CaKfTracking(
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dump,
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dump_filename,
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dll_bw_hz,
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early_late_space_chips);
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early_late_space_chips,
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bce_run,
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bce_ptrans,
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bce_strans,
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bce_nu,
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bce_kappa);
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}
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else
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{
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@ -66,10 +66,16 @@ gps_l1_ca_kf_make_tracking_cc(
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bool dump,
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std::string dump_filename,
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float dll_bw_hz,
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float early_late_space_chips)
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float early_late_space_chips,
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bool bce_run,
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unsigned int bce_ptrans,
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unsigned int bce_strans,
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int bce_nu,
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int bce_kappa)
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{
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return gps_l1_ca_kf_tracking_cc_sptr(new Gps_L1_Ca_Kf_Tracking_cc(order, if_freq,
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fs_in, vector_length, dump, dump_filename, dll_bw_hz, early_late_space_chips));
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fs_in, vector_length, dump, dump_filename, dll_bw_hz, early_late_space_chips,
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bce_run, bce_ptrans, bce_strans, bce_nu, bce_kappa));
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}
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@ -91,7 +97,12 @@ Gps_L1_Ca_Kf_Tracking_cc::Gps_L1_Ca_Kf_Tracking_cc(
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bool dump,
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std::string dump_filename,
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float dll_bw_hz,
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float early_late_space_chips) : gr::block("Gps_L1_Ca_Kf_Tracking_cc", gr::io_signature::make(1, 1, sizeof(gr_complex)),
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float early_late_space_chips,
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bool bce_run,
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unsigned int bce_ptrans,
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unsigned int bce_strans,
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int bce_nu,
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int bce_kappa) : gr::block("Gps_L1_Ca_Kf_Tracking_cc", gr::io_signature::make(1, 1, sizeof(gr_complex)),
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gr::io_signature::make(1, 1, sizeof(Gnss_Synchro)))
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{
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// Telemetry bit synchronization message port input
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@ -140,6 +151,8 @@ Gps_L1_Ca_Kf_Tracking_cc::Gps_L1_Ca_Kf_Tracking_cc(
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d_rem_code_phase_samples = 0.0;
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// define residual carrier phase
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d_rem_carr_phase_rad = 0.0;
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// define residual carrier phase covariance
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d_carr_phase_sigma2 = 0.0;
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// sample synchronization
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d_sample_counter = 0;
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@ -238,6 +251,17 @@ Gps_L1_Ca_Kf_Tracking_cc::Gps_L1_Ca_Kf_Tracking_cc(
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kf_x(2, 0) = 0.0;
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}
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// Bayesian covariance estimator initialization
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kf_iter = 0;
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bayes_run = bce_run;
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bayes_ptrans = bce_ptrans;
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bayes_strans = bce_strans;
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bayes_kappa = bce_kappa;
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bayes_nu = bce_nu;
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kf_R_est = kf_R;
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bayes_estimator.init(arma::zeros(1,1), bayes_kappa, bayes_nu, (kf_H * kf_P_x_ini * kf_H.t() + kf_R)*(bayes_nu + 2));
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}
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void Gps_L1_Ca_Kf_Tracking_cc::start_tracking()
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@ -254,6 +278,7 @@ void Gps_L1_Ca_Kf_Tracking_cc::start_tracking()
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if (d_acquisition_gnss_synchro->Acq_doppler_step > 0)
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{
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kf_P_x_ini(1, 1) = pow(d_acq_carrier_doppler_step_hz / 3.0, 2);
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bayes_estimator.init(arma::zeros(1,1), bayes_kappa, bayes_nu, (kf_H * kf_P_x_ini * kf_H.t() + kf_R)*(bayes_nu + 2));
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}
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long int acq_trk_diff_samples;
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@ -310,6 +335,7 @@ void Gps_L1_Ca_Kf_Tracking_cc::start_tracking()
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d_rem_carr_phase_rad = 0.0;
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d_rem_code_phase_chips = 0.0;
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d_acc_carrier_phase_rad = 0.0;
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d_carr_phase_sigma2 = 0.0;
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d_code_phase_samples = d_acq_code_phase_samples;
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@ -375,7 +401,7 @@ int Gps_L1_Ca_Kf_Tracking_cc::save_matfile()
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// READ DUMP FILE
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std::ifstream::pos_type size;
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int number_of_double_vars = 1;
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int number_of_float_vars = 18;
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int number_of_float_vars = 19;
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int epoch_size_bytes = sizeof(unsigned long int) + sizeof(double) * number_of_double_vars +
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sizeof(float) * number_of_float_vars + sizeof(unsigned int);
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std::ifstream dump_file;
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@ -414,6 +440,7 @@ int Gps_L1_Ca_Kf_Tracking_cc::save_matfile()
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float *carrier_dopplerrate_hz2 = new float[num_epoch];
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float *code_freq_chips = new float[num_epoch];
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float *carr_error_hz = new float[num_epoch];
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float *carr_noise_sigma2 = new float[num_epoch];
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float *carr_error_filt_hz = new float[num_epoch];
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float *code_error_chips = new float[num_epoch];
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float *code_error_filt_chips = new float[num_epoch];
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@ -442,6 +469,7 @@ int Gps_L1_Ca_Kf_Tracking_cc::save_matfile()
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dump_file.read(reinterpret_cast<char *>(&carrier_dopplerrate_hz2[i]), sizeof(float));
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dump_file.read(reinterpret_cast<char *>(&code_freq_chips[i]), sizeof(float));
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dump_file.read(reinterpret_cast<char *>(&carr_error_hz[i]), sizeof(float));
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dump_file.read(reinterpret_cast<char *>(&carr_noise_sigma2[i]), sizeof(float));
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dump_file.read(reinterpret_cast<char *>(&carr_error_filt_hz[i]), sizeof(float));
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dump_file.read(reinterpret_cast<char *>(&code_error_chips[i]), sizeof(float));
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dump_file.read(reinterpret_cast<char *>(&code_error_filt_chips[i]), sizeof(float));
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@ -470,6 +498,7 @@ int Gps_L1_Ca_Kf_Tracking_cc::save_matfile()
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delete[] carrier_dopplerrate_hz2;
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delete[] code_freq_chips;
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delete[] carr_error_hz;
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delete[] carr_noise_sigma2;
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delete[] carr_error_filt_hz;
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delete[] code_error_chips;
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delete[] code_error_filt_chips;
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@ -543,6 +572,10 @@ int Gps_L1_Ca_Kf_Tracking_cc::save_matfile()
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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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matvar = Mat_VarCreate("carr_noise_sigma2", MAT_C_SINGLE, MAT_T_SINGLE, 2, dims, carr_noise_sigma2, 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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matvar = Mat_VarCreate("carr_error_filt_hz", MAT_C_SINGLE, MAT_T_SINGLE, 2, dims, carr_error_filt_hz, 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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@ -589,6 +622,7 @@ int Gps_L1_Ca_Kf_Tracking_cc::save_matfile()
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delete[] carrier_dopplerrate_hz2;
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delete[] code_freq_chips;
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delete[] carr_error_hz;
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delete[] carr_noise_sigma2;
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delete[] carr_error_filt_hz;
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delete[] code_error_chips;
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delete[] code_error_filt_chips;
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@ -638,7 +672,7 @@ int Gps_L1_Ca_Kf_Tracking_cc::general_work(int noutput_items __attribute__((unus
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gr_vector_const_void_star &input_items, gr_vector_void_star &output_items)
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{
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// process vars
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double carr_phase_error_rad = 0.0;
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d_carr_phase_error_rad = 0.0;
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double code_error_chips = 0.0;
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double code_error_filt_chips = 0.0;
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@ -684,6 +718,10 @@ int Gps_L1_Ca_Kf_Tracking_cc::general_work(int noutput_items __attribute__((unus
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kf_x(2) = d_carrier_dopplerrate_hz2;
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}
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// Covariance estimation initialization reset
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kf_iter = 0;
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bayes_estimator.init(arma::zeros(1,1), bayes_kappa, bayes_nu, (kf_H * kf_P_x_ini * kf_H.t() + kf_R)*(bayes_nu + 2));
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consume_each(samples_offset); // shift input to perform alignment with local replica
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return 1;
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}
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@ -704,20 +742,35 @@ int Gps_L1_Ca_Kf_Tracking_cc::general_work(int noutput_items __attribute__((unus
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kf_P_x_pre = kf_F * kf_P_x * kf_F.t() + kf_Q; //state error covariance prediction
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// Update discriminator [rads/Ti]
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carr_phase_error_rad = pll_cloop_two_quadrant_atan(d_correlator_outs[1]); // prompt output
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d_carr_phase_error_rad = pll_cloop_two_quadrant_atan(d_correlator_outs[1]); // prompt output
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// Kalman estimation (measurement update)
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double sigma2_phase_detector_cycles2;
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double CN_lin = pow(10, d_CN0_SNV_dB_Hz / 10.0);
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sigma2_phase_detector_cycles2 = (1.0 / (2.0 * CN_lin * GPS_L1_CA_CODE_PERIOD)) * (1.0 + 1.0 / (2.0 * CN_lin * GPS_L1_CA_CODE_PERIOD));
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kf_y(0) = d_carr_phase_error_rad; // measurement vector
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kf_R(0, 0) = sigma2_phase_detector_cycles2;
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if (bayes_run && (kf_iter >= bayes_ptrans))
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{
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bayes_estimator.update_sequential(kf_y);
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}
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if (bayes_run && (kf_iter >= (bayes_ptrans + bayes_strans)))
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{
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// TODO: Resolve segmentation fault
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kf_P_y = bayes_estimator.get_Psi_est();
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kf_R_est = kf_P_y - kf_H * kf_P_x_pre * kf_H.t();
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}
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else
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{
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kf_P_y = kf_H * kf_P_x_pre * kf_H.t() + kf_R; // innovation covariance matrix
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kf_R_est = kf_R;
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}
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// Kalman filter update step
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kf_K = (kf_P_x_pre * kf_H.t()) * arma::inv(kf_P_y); // Kalman gain
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kf_y(0) = carr_phase_error_rad; // measurement vector
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kf_x = kf_x_pre + kf_K * kf_y; // updated state estimation
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kf_P_x = (arma::eye(size(kf_P_x_pre)) - kf_K * kf_H) * kf_P_x_pre; // update state estimation error covariance matrix
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// Store Kalman filter results
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@ -731,6 +784,7 @@ int Gps_L1_Ca_Kf_Tracking_cc::general_work(int noutput_items __attribute__((unus
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{
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d_carrier_dopplerrate_hz2 = 0;
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}
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d_carr_phase_sigma2 = kf_R_est(0, 0);
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// ################## DLL ##########################################################
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// New code Doppler frequency estimation based on carrier frequency estimation
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@ -780,7 +834,10 @@ int Gps_L1_Ca_Kf_Tracking_cc::general_work(int noutput_items __attribute__((unus
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// Loss of lock detection
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if (d_carrier_lock_test < d_carrier_lock_threshold or d_CN0_SNV_dB_Hz < FLAGS_cn0_min)
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{
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//if (d_channel == 1)
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//std::cout << "Carrier Lock Test Fail in channel " << d_channel << ": " << d_carrier_lock_test << " < " << d_carrier_lock_threshold << "," << nfail++ << std::endl;
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d_carrier_lock_fail_counter++;
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//nfail++;
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}
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else
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{
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@ -805,6 +862,9 @@ int Gps_L1_Ca_Kf_Tracking_cc::general_work(int noutput_items __attribute__((unus
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current_synchro_data.CN0_dB_hz = d_CN0_SNV_dB_Hz;
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current_synchro_data.Flag_valid_symbol_output = true;
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current_synchro_data.correlation_length_ms = 1;
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kf_iter++;
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}
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else
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{
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@ -862,7 +922,9 @@ int Gps_L1_Ca_Kf_Tracking_cc::general_work(int noutput_items __attribute__((unus
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tmp_float = d_code_freq_chips;
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d_dump_file.write(reinterpret_cast<char *>(&tmp_float), sizeof(float));
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// Kalman commands
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tmp_float = static_cast<float>(carr_phase_error_rad * GPS_TWO_PI);
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tmp_float = static_cast<float>(d_carr_phase_error_rad * GPS_TWO_PI);
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d_dump_file.write(reinterpret_cast<char *>(&tmp_float), sizeof(float));
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tmp_float = static_cast<float>(d_carr_phase_sigma2);
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d_dump_file.write(reinterpret_cast<char *>(&tmp_float), sizeof(float));
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tmp_float = static_cast<float>(d_rem_carr_phase_rad * GPS_TWO_PI);
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d_dump_file.write(reinterpret_cast<char *>(&tmp_float), sizeof(float));
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@ -63,7 +63,12 @@ gps_l1_ca_kf_make_tracking_cc(unsigned int order,
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bool dump,
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std::string dump_filename,
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float pll_bw_hz,
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float early_late_space_chips);
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float early_late_space_chips,
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bool bce_run,
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unsigned int bce_ptrans,
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unsigned int bce_strans,
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int bce_nu,
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int bce_kappa);
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/*!
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@ -91,7 +96,12 @@ private:
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bool dump,
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std::string dump_filename,
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float dll_bw_hz,
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float early_late_space_chips);
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float early_late_space_chips,
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bool bce_run,
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unsigned int bce_ptrans,
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unsigned int bce_strans,
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int bce_nu,
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int bce_kappa);
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Gps_L1_Ca_Kf_Tracking_cc(unsigned int order,
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long if_freq,
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@ -99,7 +109,12 @@ private:
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bool dump,
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std::string dump_filename,
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float dll_bw_hz,
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float early_late_space_chips);
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float early_late_space_chips,
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bool bce_run,
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unsigned int bce_ptrans,
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unsigned int bce_strans,
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int bce_nu,
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int bce_kappa);
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// tracking configuration vars
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unsigned int d_order;
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@ -124,19 +139,27 @@ private:
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arma::mat kf_P_x; //state error covariance matrix
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arma::mat kf_P_x_pre; //Predicted state error covariance matrix
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arma::mat kf_P_y; //innovation covariance matrix
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arma::mat kf_F; //state transition matrix
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arma::mat kf_H; //system matrix
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arma::mat kf_R; //measurement error covariance matrix
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arma::mat kf_Q; //system error covariance matrix
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arma::colvec kf_x; //state vector
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arma::colvec kf_x_pre; //predicted state vector
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arma::colvec kf_y; //measurement vector
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arma::colvec kf_y_pre; //measurement vector
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arma::mat kf_K; //Kalman gain matrix
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// Bayesian estimator
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Bayesian_estimator cov_est;
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Bayesian_estimator bayes_estimator;
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arma::mat kf_R_est; //measurement error covariance
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unsigned int bayes_ptrans;
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unsigned int bayes_strans;
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int bayes_nu;
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int bayes_kappa;
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bool bayes_run;
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unsigned int kf_iter;
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// PLL and DLL filter library
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Tracking_2nd_DLL_filter d_code_loop_filter;
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@ -160,6 +183,8 @@ private:
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double d_carrier_dopplerrate_hz2;
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double d_carrier_phase_step_rad;
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double d_acc_carrier_phase_rad;
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double d_carr_phase_error_rad;
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double d_carr_phase_sigma2;
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double d_code_phase_samples;
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double code_error_chips;
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double code_error_filt_chips;
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@ -42,8 +42,14 @@
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Bayesian_estimator::Bayesian_estimator()
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{
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int ny = 1;
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mu_prior = arma::zeros(ny,1);
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kappa_prior = 0;
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nu_prior = 0;
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Psi_prior = arma::eye(ny,ny) * (nu_prior + ny + 1);
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mu_est = mu_prior;
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Psi_est = Psi_prior;
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}
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Bayesian_estimator::Bayesian_estimator(int ny)
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@ -52,6 +58,9 @@ Bayesian_estimator::Bayesian_estimator(int ny)
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||||
kappa_prior = 0;
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nu_prior = 0;
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||||
Psi_prior = arma::eye(ny,ny) * (nu_prior + ny + 1);
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||||
|
||||
mu_est = mu_prior;
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Psi_est = Psi_prior;
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||||
}
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||||
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||||
Bayesian_estimator::Bayesian_estimator(arma::vec mu_prior_0, int kappa_prior_0, int nu_prior_0, arma::mat Psi_prior_0)
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||||
@ -60,12 +69,26 @@ Bayesian_estimator::Bayesian_estimator(arma::vec mu_prior_0, int kappa_prior_0,
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||||
kappa_prior = kappa_prior_0;
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||||
nu_prior = nu_prior_0;
|
||||
Psi_prior = Psi_prior_0;
|
||||
|
||||
mu_est = mu_prior;
|
||||
Psi_est = Psi_prior;
|
||||
}
|
||||
|
||||
Bayesian_estimator::~Bayesian_estimator()
|
||||
{
|
||||
}
|
||||
|
||||
void Bayesian_estimator::init(arma::vec mu_prior_0, int kappa_prior_0, int nu_prior_0, arma::mat Psi_prior_0)
|
||||
{
|
||||
mu_prior = mu_prior_0;
|
||||
kappa_prior = kappa_prior_0;
|
||||
nu_prior = nu_prior_0;
|
||||
Psi_prior = Psi_prior_0;
|
||||
|
||||
mu_est = mu_prior;
|
||||
Psi_est = Psi_prior;
|
||||
}
|
||||
|
||||
/*
|
||||
* Perform Bayesian noise estimation using the normal-inverse-Wishart priors stored in
|
||||
* the class structure, and update the priors according to the computed posteriors
|
||||
@ -152,10 +175,9 @@ void Bayesian_estimator::update_sequential(arma::vec data, arma::vec mu_prior_0,
|
||||
kappa_prior = kappa_posterior;
|
||||
nu_prior = nu_posterior;
|
||||
Psi_prior = Psi_posterior;
|
||||
|
||||
}
|
||||
|
||||
arma::vec Bayesian_estimator::get_mu_est()
|
||||
arma::mat Bayesian_estimator::get_mu_est()
|
||||
{
|
||||
return mu_est;
|
||||
}
|
||||
|
@ -65,14 +65,15 @@ public:
|
||||
Bayesian_estimator(arma::vec mu_prior_0, int kappa_prior_0, int nu_prior_0, arma::mat Psi_prior_0);
|
||||
~Bayesian_estimator();
|
||||
|
||||
void init(arma::vec mu_prior_0, int kappa_prior_0, int nu_prior_0, arma::mat Psi_prior_0);
|
||||
|
||||
void update_sequential(arma::vec data);
|
||||
void update_sequential(arma::vec data, arma::vec mu_prior_0, int kappa_prior_0, int nu_prior_0, arma::mat Psi_prior_0);
|
||||
|
||||
arma::vec get_mu_est();
|
||||
arma::mat get_mu_est();
|
||||
arma::mat get_Psi_est();
|
||||
|
||||
private:
|
||||
|
||||
arma::vec mu_est;
|
||||
arma::mat Psi_est;
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user