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https://github.com/hb9fxq/gr-digitalhf
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improved dopper estimation from adaptive filter taps (intermediate)
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@ -94,7 +94,7 @@ adaptive_dfe_impl::adaptive_dfe_impl(int sps, // samples per symbol
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, _num_samples_since_filter_update(0)
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, _num_samples_since_filter_update(0)
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, _rotated_samples()
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, _rotated_samples()
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, _rotator()
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, _rotator()
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, _control_loop(2*M_PI/100, 5e-3, -5e-3)
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, _control_loop(2*M_PI/100, 5e-5, -5e-5)
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{
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{
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GR_LOG_DECLARE_LOGPTR(d_logger);
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GR_LOG_DECLARE_LOGPTR(d_logger);
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GR_LOG_ASSIGN_LOGPTR(d_logger, "adaptive_dfe");
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GR_LOG_ASSIGN_LOGPTR(d_logger, "adaptive_dfe");
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@ -287,23 +287,12 @@ gr_complex adaptive_dfe_impl::filter(gr_complex const* start, gr_complex const*
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// std::cout << "FILTER: " << filter_output <<" " << known_symbol << " " << start[_nB+1] << std::endl;
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// std::cout << "FILTER: " << filter_output <<" " << known_symbol << " " << start[_nB+1] << std::endl;
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// (3) filter update
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// (3) filter update
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if (is_known || update_taps) {
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if (is_known || update_taps) {
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// (3a) control loop update for doppler correction using the adaptibve filter taps
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// (3a) update of adaptive filter taps
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gr_complex acc(0);
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for (int j=_nB+1-2*_sps; j<_nB+1+2*_sps+1; ++j)
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acc += std::conj(_last_taps_samples[j]) * _taps_samples[j];
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float const frequency_err = gr::fast_atan2f(acc)/_num_samples_since_filter_update; // frequency error (rad/sample)
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_control_loop.advance_loop(frequency_err);
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_control_loop.phase_wrap();
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_control_loop.frequency_limit();
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_rotator.set_phase_incr(gr_expj(_control_loop.get_frequency()));
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// (3b) update of adaptive filter taps
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gr_complex const err = filter_output - known_symbol;
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gr_complex const err = filter_output - known_symbol;
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// taps_samples
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// taps_samples
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for (int j=0; j<_nB+_nF+1; ++j) {
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for (int j=0; j<_nB+_nF+1; ++j) {
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_last_taps_samples[j] = _taps_samples[j];
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_last_taps_samples[j] = _taps_samples[j];
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_taps_samples[j] -= _mu*err*std::conj(start[j]);
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_taps_samples[j] -= _mu*err*std::conj(start[j]);
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_num_samples_since_filter_update = 0;
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}
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}
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// taps_symbols
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// taps_symbols
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if (_use_symbol_taps) {
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if (_use_symbol_taps) {
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@ -316,6 +305,20 @@ gr_complex adaptive_dfe_impl::filter(gr_complex const* start, gr_complex const*
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_hist_symbol_index = 0;
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_hist_symbol_index = 0;
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}
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}
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}
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}
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// (3b) control loop update for doppler correction using the adaptibve filter taps
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if (_symbol_counter+1 == _symbols.size()) {
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gr_complex acc(0);
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for (int j=_nB+1-2*_sps; j<_nB+1+2*_sps+1; ++j)
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acc += std::conj(_last_taps_samples[j]) * _taps_samples[j];
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float const frequency_err = gr::fast_atan2f(acc)/(1+0*_num_samples_since_filter_update); // frequency error (rad/sample)
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std::cout << "frequency_err " << frequency_err << " " << _num_samples_since_filter_update << std::endl;
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_control_loop.advance_loop(frequency_err);
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_control_loop.phase_wrap();
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_control_loop.frequency_limit();
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_rotator.set_phase_incr(gr_expj(_control_loop.get_frequency()));
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_num_samples_since_filter_update = 0;
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}
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// (4) save the descrambled symbol (-> frame_info)
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// (4) save the descrambled symbol (-> frame_info)
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_descrambled_symbols[_symbol_counter] = filter_output*std::conj(_scramble[_symbol_counter]);
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_descrambled_symbols[_symbol_counter] = filter_output*std::conj(_scramble[_symbol_counter]);
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return _descrambled_symbols[_symbol_counter++];
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return _descrambled_symbols[_symbol_counter++];
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@ -55,7 +55,7 @@ class physical_layer_driver(gr.hier_block2):
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self._rrc_taps = filter.firdes.root_raised_cosine(1.0, samp_rate, samp_rate/sps, 0.35, 11*sps)
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self._rrc_taps = filter.firdes.root_raised_cosine(1.0, samp_rate, samp_rate/sps, 0.35, 11*sps)
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preamble_offset,preamble_samples = self._physical_layer_driver_description.get_preamble_z()
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preamble_offset,preamble_samples = self._physical_layer_driver_description.get_preamble_z()
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preamble_length = self._sps * len(self._physical_layer_driver_description.get_preamble()) ## len(preamble_samples)
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preamble_length = self._sps * len(self._physical_layer_driver_description.get_preamble()) ## len(preamble_samples)
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preamble_length = len(preamble_samples)
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##preamble_length = len(preamble_samples)
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self._rrc_filter = filter.fir_filter_ccc(1, (self._rrc_taps))
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self._rrc_filter = filter.fir_filter_ccc(1, (self._rrc_taps))
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self._corr_est = digital.corr_est_cc(symbols = (preamble_samples.tolist()),
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self._corr_est = digital.corr_est_cc(symbols = (preamble_samples.tolist()),
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sps = sps,
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sps = sps,
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