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ZH: Prefix simu scripts with alpabetical order
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5 changed files with 59 additions and 6 deletions
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@ -4,10 +4,10 @@ all: beacon clocks
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beacon:
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./generate_beacon.py
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./aa_generate_beacon.py
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clocks:
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./modify_clocks.py
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./ab_modify_clocks.py
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dist-clean:
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rm -f ZH_airshower/antennas.hdf5
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@ -9,13 +9,19 @@ The produced files can be read using [./earsim](./earsim).
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Steps:
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1. Setup
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1. Beacon ([./generate_beacon.py])
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1. Beacon ([./aa_generate_beacon.py])
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1. Define tx position
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2. Read in antennas
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3. Sample beacon at each antenna
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4. Add to relevant polarisation
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5. Save antenna traces
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2. Timeoffset ([./generate_timeoffset.pyt])
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2. Timeoffset ([./ab_modify_clocks.py])
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1. Generate timeoffsets for each antenna
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2. Modify time samples
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2. Beacon analysis
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1. Find beacon frequency and phase in antenna traces ([./ba_beacon_phases.py])
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2. Find k\*2\\pi phase offsets (periods) ([./bb_beacon_multiples.py])
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3. Rewrite clocks
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@ -52,7 +52,8 @@ def read_beacon_hdf5(fname):
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antenna.Ex = ant['traces'][1]
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antenna.Ey = ant['traces'][2]
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antenna.Ez = ant['traces'][3]
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antenna.beacon = ant['traces'][4]
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if len(ant['traces']) > 4:
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antenna.beacon = ant['traces'][4]
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antennas.append(antenna)
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@ -9,7 +9,7 @@ from copy import deepcopy as copy
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from earsim import REvent, Antenna
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import generate_beacon as beacon
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import aa_generate_beacon as beacon
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import lib
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46
simulations/airshower_beacon_simulation/view_beaconed_antenna.py
Executable file
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simulations/airshower_beacon_simulation/view_beaconed_antenna.py
Executable file
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@ -0,0 +1,46 @@
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#!/usr/bin/env python3
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import numpy as np
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import matplotlib.pyplot as plt
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import numpy.fft as ft
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from earsim import Antenna
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import aa_generate_beacon as beacon
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if __name__ == "__main__":
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import os.path as path
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fname = "ZH_airshower/mysim.sry"
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####
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fname_dir = path.dirname(fname)
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antennas_fname = path.join(fname_dir, beacon.antennas_fname)
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f_beacon, tx, antennas = beacon.read_beacon_hdf5(antennas_fname)
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idx = [0, len(antennas)//2, -1]
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fig1, axs = plt.subplots(2)
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axs[0].set_xlabel('t [ns]')
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axs[0].set_ylabel('[$\mu$V/m]')
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axs[1].set_xlabel('f [GHz]')
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axs[1].set_ylabel('Power')
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for i in idx:
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ant = antennas[i]
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n_samples = len(ant.t)
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samplerate = (ant.t[-1] - ant.t[0])/n_samples
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axs[0].axvline(ant.t[0], color='k', alpha=0.5)
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for direction, trace in dict(x=ant.Ex, y=ant.Ex, z=ant.Ez).items():
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freqs = ft.fftfreq(n_samples, 1/samplerate)[:n_samples//2]
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fft = 2*ft.fft(trace)[:n_samples//2]/n_samples
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axs[0].plot(ant.t, trace, label=f"E{direction} {i}")
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axs[1].plot(freqs, np.abs(fft))
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fig1.legend(loc='center right', ncol=min(3, len(idx)))
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#fig1.savefig('./fig1.png')
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plt.show()
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