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#!/usr/bin/env python3
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# vim: fdm=indent ts=4
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"""
Show Signal to noise for the original simulation signal ,
the beacon signal and the combined signal for each antenna
"""
import numpy as np
import h5py
import matplotlib . pyplot as plt
import numpy as np
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from earsim import REvent , block_filter
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import aa_generate_beacon as beacon
import lib
if __name__ == " __main__ " :
from os import path
import sys
import matplotlib
import os
if os . name == ' posix ' and " DISPLAY " not in os . environ :
matplotlib . use ( ' Agg ' )
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from scriptlib import MyArgumentParser
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 ) ' )
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 ) ' )
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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fname = " ZH_airshower/mysim.sry "
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figsize = ( 9 , 6 )
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fig_dir = args . fig_dir
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show_plots = args . show_plots
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####
fname_dir = path . dirname ( fname )
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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# create fig_dir
if fig_dir :
os . makedirs ( fig_dir , exist_ok = True )
# Read in antennas from file
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f_beacon , tx , antennas = beacon . read_beacon_hdf5 ( antennas_fname )
_ , __ , txdata = beacon . read_tx_file ( tx_fname )
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# general properties
dt = antennas [ 0 ] . t [ 1 ] - antennas [ 0 ] . t [ 0 ] # ns
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beacon_pb = lib . passband ( f_beacon - 1e-3 , f_beacon + 1e-3 ) # GHz
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beacon_amp = np . max ( txdata [ ' amplitudes ' ] ) # mu V/m
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# General Bandpass
low_bp = args . passband_low if args . passband_low > = 0 else np . inf # GHz
high_bp = args . passband_high if args . passband_high > = 0 else np . inf # GHz
pb = lib . passband ( low_bp , high_bp ) # GHz
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 ] )
else : # Compare raw beacon/noise with Filtered Traces
myfilter = lambda x : x
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##
## Beacon vs Noise SNR
##
if True :
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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 = pb ) for ant in antennas ]
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fig , ax = plt . subplots ( figsize = figsize )
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ax . set_title ( " Maximum Beacon/Noise SNR " )
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ax . set_xlabel ( " Antenna no. " )
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ax . set_ylabel ( " SNR " )
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 " ) )
##
## Beacon vs Total SNR
##
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 ) 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 " )
ax . set_xlabel ( " Antenna no. " )
ax . set_ylabel ( " SNR " )
ax . plot ( [ int ( ant . name ) for ant in antennas ] , beacon_snrs , ' o ' , ls = ' none ' )
if fig_dir :
fig . savefig ( path . join ( fig_dir , path . basename ( __file__ ) + f " .beacon_vs_total_snr.pdf " ) )
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##
## Airshower signal vs Noise SNR
##
if True :
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shower_snrs = [ lib . signal_to_noise ( ant . E_AxB , myfilter ( ant . noise ) , samplerate = 1 / dt , signal_band = pb , noise_band = pb ) 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 " )
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 :
plt . show ( )