mirror of
https://gitlab.science.ru.nl/mthesis-edeboone/m-thesis-introduction.git
synced 2024-12-22 19:43:30 +01:00
232 lines
8.5 KiB
Python
Executable file
232 lines
8.5 KiB
Python
Executable file
#!/usr/bin/env python3
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# vim: fdm=indent ts=4
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"""
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Show Signal to noise for the original simulation signal,
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the beacon signal and the combined signal for each antenna
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"""
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import numpy as np
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import h5py
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import matplotlib.pyplot as plt
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import numpy as np
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from earsim import REvent, block_filter
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import aa_generate_beacon as beacon
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import lib
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if __name__ == "__main__":
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from os import path
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import sys
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import matplotlib
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import os
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if os.name == 'posix' and "DISPLAY" not in os.environ:
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matplotlib.use('Agg')
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from scriptlib import MyArgumentParser
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parser = MyArgumentParser()
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# Bandpass
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parser.add_argument('-p', '--use-passband', type=bool, default=True, help='(Default: %(default)d)')
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parser.add_argument('-l', '--passband-low', type=float, default=30e-3, help='Lower frequency [GHz] of the passband filter. (set -1 for np.inf) (Default: %(default)d)')
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parser.add_argument('-u', '--passband-high', type=float, default=80e-3, help='Upper frequency [GHz] of the passband filter. (set -1 for np.inf) (Default: %(default)d)')
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args = parser.parse_args()
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figsize = (12,8)
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fig_dir = args.fig_dir
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show_plots = args.show_plots
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####
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fname_dir = args.data_dir
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antennas_fname = path.join(fname_dir, beacon.antennas_fname)
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tx_fname = path.join(fname_dir, beacon.tx_fname)
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beacon_snr_fname = path.join(fname_dir, beacon.beacon_snr_fname)
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airshower_snr_fname = path.join(fname_dir, beacon.airshower_snr_fname)
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# create fig_dir
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if fig_dir:
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os.makedirs(fig_dir, exist_ok=True)
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# Read in antennas from file
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f_beacon, tx, antennas = beacon.read_beacon_hdf5(antennas_fname, traces_key='filtered_traces')
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_, __, txdata = beacon.read_tx_file(tx_fname)
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# Read zeropadded traces
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_, __, signal_antennas = beacon.read_beacon_hdf5(antennas_fname, traces_key='original_E_AxB', read_AxB=False )
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# !!HACK!! Repack traces in signal_antennas to antennas
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for i, ant in enumerate(signal_antennas):
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if antennas[i].name != ant.name:
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print("Error!")
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import sys
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sys.exit()
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antennas[i].orig_E_AxB = ant.Ex
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# general properties
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dt = antennas[0].t[1] - antennas[0].t[0] # ns
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beacon_pb = lib.passband(f_beacon, None) # GHz
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beacon_amp = np.max(txdata['amplitudes'])# mu V/m
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# General Bandpass
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low_bp = args.passband_low if args.passband_low >= 0 else np.inf # GHz
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high_bp = args.passband_high if args.passband_high >= 0 else np.inf # GHz
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pb = lib.passband(low_bp, high_bp) # GHz
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noise_pb = pb
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if args.use_passband: # Apply filter to raw beacon/noise to compare with Filtered Traces
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myfilter = lambda x: block_filter(x, dt, pb[0], pb[1])
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else: # Compare raw beacon/noise with Filtered Traces
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myfilter = lambda x: x
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##
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## Debug plot of Beacon vs Noise SNR
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##
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if True:
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ant = antennas[0]
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fig, ax = plt.subplots(figsize=figsize)
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_debug_snrs = lib.signal_to_noise(myfilter(beacon_amp*ant.beacon), myfilter(ant.noise), samplerate=1/dt, signal_band=beacon_pb, noise_band=noise_pb, debug_ax=ax, mode='sine')
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ax.legend(title="$\\langle SNR \\rangle$ = {: .1e}".format(np.mean(_debug_snrs)))
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ax.set_title("Spectra and passband")
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ax.set_xlabel("Frequency [GHz]")
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ax.set_ylabel("Amplitude")
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low_x, high_x = min(beacon_pb[0], noise_pb[0]), max(beacon_pb[1] or 0, noise_pb[1])
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ax.set_xlim(low_x, high_x)
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if fig_dir:
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f".beacon_vs_noise_snr.debug_plot.pdf"))
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##
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## Beacon vs Noise SNR
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##
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if True:
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N_samples = len(antennas[0].beacon)
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beacon_snrs = [ lib.signal_to_noise(myfilter(beacon_amp*ant.beacon), myfilter(ant.noise), samplerate=1/dt, signal_band=beacon_pb, noise_band=noise_pb, mode='sine') for i, ant in enumerate(antennas) ]
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# write mean and std to file
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beacon.write_snr_file(beacon_snr_fname, beacon_snrs)
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fig, ax = plt.subplots(figsize=figsize)
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ax.set_title(f"Maximum Beacon/Noise SNR (N_samples:{N_samples:.1e})")
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ax.set_xlabel("Antenna no.")
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ax.set_ylabel("SNR")
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ax.plot([ int(ant.name) for ant in antennas], beacon_snrs, 'o', ls='none')
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if fig_dir:
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f".beacon_vs_noise_snr.pdf"))
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##
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## Beacon vs Total SNR
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##
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if True:
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beacon_snrs = [ lib.signal_to_noise(myfilter(beacon_amp*ant.beacon), ant.E_AxB, samplerate=1/dt, signal_band=beacon_pb, noise_band=pb, mode='sine') for ant in antennas ]
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fig, ax = plt.subplots(figsize=figsize)
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ax.set_title("Maximum Beacon/Total SNR")
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ax.set_xlabel("Antenna no.")
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ax.set_ylabel("SNR")
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ax.plot([ int(ant.name) for ant in antennas], beacon_snrs, 'o', ls='none')
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if fig_dir:
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f".beacon_vs_total_snr.pdf"))
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##
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## Debug plot of Signal vs Noise SNR
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##
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if True:
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ant = antennas[0]
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fig, ax = plt.subplots(figsize=figsize)
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_debug_snrs = lib.signal_to_noise(myfilter(ant.orig_E_AxB), myfilter(ant.noise), samplerate=1/dt, debug_ax=ax, mode='pulse')
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ax.legend(title="$\\langle SNR \\rangle$ = {: .1e}".format(np.mean(_debug_snrs)))
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ax.set_title("Signal (max amp) and Noise (rms)")
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ax.set_xlabel("Samples")
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ax.set_ylabel("Amplitude")
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if fig_dir:
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f".airshower_vs_noise_snr.debug_plot.pdf"))
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##
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## Signal vs Noise SNR
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##
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if True:
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airshower_snrs = [ lib.signal_to_noise(myfilter(ant.orig_E_AxB), myfilter(ant.noise), samplerate=1/dt, mode='pulse') for ant in antennas ]
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# write mean and std to file
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beacon.write_snr_file(airshower_snr_fname, airshower_snrs)
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fig, ax = plt.subplots(figsize=figsize)
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ax.set_title("Maximum Airshower/Noise SNR")
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ax.set_xlabel("Antenna no.")
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ax.set_ylabel("SNR")
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ax.plot([ int(ant.name) for ant in antennas], airshower_snrs, 'o', ls='none')
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if fig_dir:
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f".airshower_vs_noise_snr.pdf"))
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##
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## Debug plot of Signal vs Beacon SNR
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##
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if True:
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ant = antennas[0]
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fig, ax = plt.subplots(figsize=figsize)
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if False: #indirect SNR max_amp(signal) vs max_amp(beacon)
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_debug_snrs_E_AxB = lib.signal_to_noise(myfilter(ant.orig_E_AxB), myfilter(ant.noise), samplerate=1/dt, debug_ax=ax, mode='pulse')
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_debug_snrs_sine = lib.signal_to_noise(myfilter(beacon_amp*ant.beacon), myfilter(ant.noise), samplerate=1/dt, debug_ax=ax, mode='pulse')
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_debug_snrs = _debug_snrs_E_AxB / _debug_snrs_sine
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else: # direct max_amp(signal) vs rms(beacon)
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_debug_snrs = lib.signal_to_noise(myfilter(ant.orig_E_AxB), myfilter(beacon_amp*ant.beacon), samplerate=1/dt, debug_ax=ax, mode='pulse')
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ax.legend(title="$\\langle SNR \\rangle$ = {: .1e}".format(np.mean(_debug_snrs)))
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ax.set_title("Signal (max amp), Beacon (max amp) and Noise (rms)")
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ax.set_xlabel("Samples")
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ax.set_ylabel("Amplitude")
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if fig_dir:
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f".airshower_vs_beacon_snr.debug_plot.pdf"))
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##
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## Signal vs Beacon SNR
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##
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if True:
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shower_beacon_snrs = [ lib.signal_to_noise(myfilter(ant.orig_E_AxB), myfilter(beacon_amp*ant.beacon), samplerate=1/dt, mode='pulse') for ant in antennas ]
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fig, ax = plt.subplots(figsize=figsize)
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ax.set_title("Maximum Airshower/Beacon RMS SNR")
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ax.set_xlabel("Antenna no.")
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ax.set_ylabel("SNR")
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ax.plot([ int(ant.name) for ant in antennas], beacon_snrs, 'o', ls='none')
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if fig_dir:
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f".airshower_vs_beacon_snr.pdf"))
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##
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## Total signal vs Noise SNR
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##
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if True:
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shower_snrs = [ lib.signal_to_noise(ant.E_AxB, myfilter(ant.noise), samplerate=1/dt, mode='pulse') for ant in antennas ]
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fig, ax = plt.subplots(figsize=figsize)
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ax.set_title("Total (Signal+Beacon+Noise)/Noise SNR")
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ax.set_xlabel("Antenna no.")
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ax.set_ylabel("SNR")
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ax.plot([ int(ant.name) for ant in antennas], shower_snrs, 'o', ls='none')
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if fig_dir:
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f".total_snr.pdf"))
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if show_plots:
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plt.show()
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