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https://github.com/gnss-sdr/gnss-sdr
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but solved: double acquisition was using uint32_t for the initial doppler estimation. Therefore when the first estimated doppler was negative it was reset to zero.
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528c79d1e7
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@ -174,7 +174,7 @@ void pcps_acquisition_fpga::send_negative_acquisition()
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this->message_port_pub(pmt::mp("events"), pmt::from_long(2));
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this->message_port_pub(pmt::mp("events"), pmt::from_long(2));
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}
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}
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void pcps_acquisition_fpga::acquisition_core(uint32_t num_doppler_bins, uint32_t doppler_step, uint32_t doppler_min)
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void pcps_acquisition_fpga::acquisition_core(uint32_t num_doppler_bins, uint32_t doppler_step, int32_t doppler_min)
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{
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{
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uint32_t indext = 0U;
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uint32_t indext = 0U;
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float firstpeak = 0.0;
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float firstpeak = 0.0;
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@ -97,7 +97,7 @@ private:
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float first_vs_second_peak_statistic(uint32_t& indext, int32_t& doppler, uint32_t num_doppler_bins, int32_t doppler_max, int32_t doppler_step);
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float first_vs_second_peak_statistic(uint32_t& indext, int32_t& doppler, uint32_t num_doppler_bins, int32_t doppler_max, int32_t doppler_step);
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void acquisition_core(uint32_t num_doppler_bins, uint32_t doppler_step, uint32_t doppler_max);
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void acquisition_core(uint32_t num_doppler_bins, uint32_t doppler_step, int32_t doppler_max);
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pcpsconf_fpga_t acq_parameters;
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pcpsconf_fpga_t acq_parameters;
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bool d_active;
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bool d_active;
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@ -45,7 +45,7 @@
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// FPGA register parameters
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// FPGA register parameters
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#define PAGE_SIZE 0x10000 // default page size for the multicorrelator memory map
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#define PAGE_SIZE 0x10000 // default page size for the multicorrelator memory map
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#define MAX_PHASE_STEP_RAD 0.999999999534339 // 1 - pow(2,-31);
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//#define MAX_PHASE_STEP_RAD 0.999999999534339 // 1 - pow(2,-31);
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#define RESET_ACQUISITION 2 // command to reset the multicorrelator
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#define RESET_ACQUISITION 2 // command to reset the multicorrelator
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#define LAUNCH_ACQUISITION 1 // command to launch the multicorrelator
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#define LAUNCH_ACQUISITION 1 // command to launch the multicorrelator
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#define TEST_REG_SANITY_CHECK 0x55AA // value to check the presence of the test register (to detect the hw)
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#define TEST_REG_SANITY_CHECK 0x55AA // value to check the presence of the test register (to detect the hw)
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@ -114,6 +114,7 @@ fpga_acquisition::fpga_acquisition(std::string device_name,
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d_PRN = 0;
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d_PRN = 0;
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DLOG(INFO) << "Acquisition FPGA class created";
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DLOG(INFO) << "Acquisition FPGA class created";
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//printf("d_excludelimit = %d\n", d_excludelimit);
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}
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}
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void fpga_acquisition::open_device()
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void fpga_acquisition::open_device()
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@ -216,7 +217,7 @@ void fpga_acquisition::set_block_exp(uint32_t total_block_exp)
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d_map_base[11] = total_block_exp;
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d_map_base[11] = total_block_exp;
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}
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}
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void fpga_acquisition::set_doppler_sweep(uint32_t num_sweeps, uint32_t doppler_step, uint32_t doppler_min)
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void fpga_acquisition::set_doppler_sweep(uint32_t num_sweeps, uint32_t doppler_step, int32_t doppler_min)
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{
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{
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float phase_step_rad_real;
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float phase_step_rad_real;
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float phase_step_rad_int_temp;
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float phase_step_rad_int_temp;
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@ -229,12 +230,12 @@ void fpga_acquisition::set_doppler_sweep(uint32_t num_sweeps, uint32_t doppler_s
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// The FPGA also expects the phase to be negative since it produces cos(x) -j*sin(x)
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// The FPGA also expects the phase to be negative since it produces cos(x) -j*sin(x)
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phase_step_rad_real = phase_step_rad / (GPS_TWO_PI / 2);
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phase_step_rad_real = phase_step_rad / (GPS_TWO_PI / 2);
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// avoid saturation of the fixed point representation in the fpga
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// // avoid saturation of the fixed point representation in the fpga
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// (only the positive value can saturate due to the 2's complement representation)
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// // (only the positive value can saturate due to the 2's complement representation)
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if (phase_step_rad_real >= 1.0)
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// if (phase_step_rad_real >= 1.0)
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{
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// {
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phase_step_rad_real = MAX_PHASE_STEP_RAD;
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// phase_step_rad_real = MAX_PHASE_STEP_RAD;
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}
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// }
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phase_step_rad_int_temp = phase_step_rad_real * POW_2_2; // * 2^2
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phase_step_rad_int_temp = phase_step_rad_real * POW_2_2; // * 2^2
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phase_step_rad_int = static_cast<int32_t>(phase_step_rad_int_temp * (POW_2_29)); // * 2^29 (in total it makes x2^31 in two steps to avoid the warnings
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phase_step_rad_int = static_cast<int32_t>(phase_step_rad_int_temp * (POW_2_29)); // * 2^29 (in total it makes x2^31 in two steps to avoid the warnings
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d_map_base[3] = phase_step_rad_int;
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d_map_base[3] = phase_step_rad_int;
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@ -244,10 +245,10 @@ void fpga_acquisition::set_doppler_sweep(uint32_t num_sweeps, uint32_t doppler_s
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doppler = static_cast<int32_t>(doppler_step);
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doppler = static_cast<int32_t>(doppler_step);
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phase_step_rad = GPS_TWO_PI * (doppler) / static_cast<float>(d_fs_in);
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phase_step_rad = GPS_TWO_PI * (doppler) / static_cast<float>(d_fs_in);
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phase_step_rad_real = phase_step_rad / (GPS_TWO_PI / 2);
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phase_step_rad_real = phase_step_rad / (GPS_TWO_PI / 2);
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if (phase_step_rad_real >= 1.0)
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// if (phase_step_rad_real >= 1.0)
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{
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// {
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phase_step_rad_real = MAX_PHASE_STEP_RAD;
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// phase_step_rad_real = MAX_PHASE_STEP_RAD;
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}
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// }
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phase_step_rad_int_temp = phase_step_rad_real * POW_2_2; // * 2^2
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phase_step_rad_int_temp = phase_step_rad_real * POW_2_2; // * 2^2
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phase_step_rad_int = static_cast<int32_t>(phase_step_rad_int_temp * (POW_2_29)); // * 2^29 (in total it makes x2^31 in two steps to avoid the warnings
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phase_step_rad_int = static_cast<int32_t>(phase_step_rad_int_temp * (POW_2_29)); // * 2^29 (in total it makes x2^31 in two steps to avoid the warnings
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d_map_base[4] = phase_step_rad_int;
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d_map_base[4] = phase_step_rad_int;
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@ -60,7 +60,7 @@ public:
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bool init();
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bool init();
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bool set_local_code(uint32_t PRN);
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bool set_local_code(uint32_t PRN);
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bool free();
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bool free();
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void set_doppler_sweep(uint32_t num_sweeps, uint32_t doppler_step, uint32_t doppler_max);
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void set_doppler_sweep(uint32_t num_sweeps, uint32_t doppler_step, int32_t doppler_min);
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void run_acquisition(void);
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void run_acquisition(void);
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void read_acquisition_results(uint32_t *max_index, float *firstpeak, float *secondpeak, uint64_t *initial_sample, float *power_sum, uint32_t *doppler_index, uint32_t *total_blk_exp);
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void read_acquisition_results(uint32_t *max_index, float *firstpeak, float *secondpeak, uint64_t *initial_sample, float *power_sum, uint32_t *doppler_index, uint32_t *total_blk_exp);
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