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gnss-sdr/utils/python/gps_l1_ca_telemetry_plot_sample.py

100 lines
3.2 KiB
Python

"""
gps_l1_ca_telemetry_plot_sample.py
Reads GNSS-SDR Tracking dump binary file using the provided function and
plots some internal variables
Irene Pérez Riega, 2023. iperrie@inta.es
Modifiable in the file:
sampling_freq - Sampling frequency [Hz]
channels - Number of channels to check if they exist
doppler_opt - = 1 -> Plot // = 0 -> No plot
path - Path to folder which contains raw file
fig_path - Path where plots will be save
chn_num_a / b - Channel which will be plotted
-----------------------------------------------------------------------------
GNSS-SDR is a Global Navigation Satellite System software-defined receiver.
This file is part of GNSS-SDR.
Copyright (C) 2022 (see AUTHORS file for a list of contributors)
SPDX-License-Identifier: GPL-3.0-or-later
-----------------------------------------------------------------------------
"""
import os
import matplotlib.pyplot as plt
from lib.gps_l1_ca_read_telemetry_dump import gps_l1_ca_read_telemetry_dump
GNSS_telemetry = []
# ---------- CHANGE HERE:
sampling_freq = 2000000
channels = list(range(18))
path = '/home/labnav/Desktop/TEST_IRENE/'
fig_path = '/home/labnav/Desktop/TEST_IRENE/PLOTS/Telemetry'
if not os.path.exists(fig_path):
os.makedirs(fig_path)
i = 0
for N in channels:
try:
telemetry_log_path = os.path.join(path, f'telemetry{N}.dat')
telemetry_data = gps_l1_ca_read_telemetry_dump(telemetry_log_path)
GNSS_telemetry.append(telemetry_data)
i += 1
except:
pass
# ---------- CHANGE HERE:
chn_num_a = 0
chn_num_b = 5
# Plotting values
if chn_num_a in range(i) and chn_num_b in range(i):
# First Plot:
plt.figure()
plt.gcf().canvas.manager.set_window_title(f'Telem_Current_Simbol_TOW_'
f'{chn_num_a}_{chn_num_b}.png')
plt.plot(GNSS_telemetry[chn_num_a]['tracking_sample_counter'],
[x / 1000 for x in GNSS_telemetry[chn_num_a]
['tow_current_symbol_ms']], 'b')
plt.plot(GNSS_telemetry[chn_num_b]['tracking_sample_counter'],
GNSS_telemetry[chn_num_b]['tow_current_symbol_ms'], 'r')
plt.grid(True)
plt.xlabel('TRK Sampling Counter')
plt.ylabel('Current Symbol TOW')
plt.legend([f'CHN-{chn_num_a-1}', f'CHN-{chn_num_b-1}'])
plt.tight_layout()
plt.savefig(os.path.join(fig_path, f'Telem_Current_Simbol_TOW_{chn_num_a}'
f'_{chn_num_b}.png'))
plt.show()
# Second Plot:
plt.figure()
plt.gcf().canvas.manager.set_window_title(f'Telem_TRK_Sampling_Counter_'
f'{chn_num_a}_{chn_num_b}.png')
plt.plot(GNSS_telemetry[chn_num_a]['tracking_sample_counter'],
GNSS_telemetry[chn_num_a]['tow'], 'b')
plt.plot(GNSS_telemetry[chn_num_b]['tracking_sample_counter'],
GNSS_telemetry[chn_num_b]['tow'], 'r')
plt.grid(True)
plt.xlabel('TRK Sampling Counter')
plt.ylabel('Decoded Nav TOW')
plt.legend([f'CHN-{chn_num_a-1}', f'CHN-{chn_num_b-1}'])
plt.tight_layout()
plt.savefig(os.path.join(fig_path, f'Telem_TRK_Sampling_Counter_'
f'{chn_num_a}_{chn_num_b}.png'))
plt.show()