2022-11-10 12:04:31 +01:00
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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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2022-11-18 12:15:32 +01:00
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2022-11-10 12:04:31 +01:00
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import aa_generate_beacon as beacon
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2022-11-18 12:15:32 +01:00
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from view_orig_ant0 import plot_antenna_geometry
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import lib
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2022-11-10 12:04:31 +01:00
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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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2022-11-18 12:15:32 +01:00
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plot_ft_amplitude = True
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plot_geometry = True
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2022-11-18 19:36:48 +01:00
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2022-11-10 12:04:31 +01:00
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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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2022-11-18 12:15:32 +01:00
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if not True:
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idx = [0, 1, len(antennas)//2, len(antennas)//2+1, -2, -1]
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elif not True:
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idx = np.arange(1, 20, 2, dtype=int)
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elif True:
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# center 6 antennas
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names = [55, 56, 57, 65, 66, 45, 46]
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idx = [ i for i, ant in enumerate(antennas) if int(ant.name) in names ]
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[ print(antennas[i].name) for i in names ]
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fig1, axs = plt.subplots(1+plot_ft_amplitude*2)
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if not plot_ft_amplitude:
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axs = [axs]
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2022-11-10 12:04:31 +01:00
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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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2022-11-18 12:15:32 +01:00
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if plot_ft_amplitude:
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axs[1].set_xlabel('f [GHz]')
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axs[1].set_ylabel('Power')
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axs[2].set_ylabel("Phase")
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axs[2].set_xlabel('f [GHz]')
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axs[2].set_ylim(-np.pi,+np.pi)
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2022-11-10 12:04:31 +01:00
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2022-11-18 12:15:32 +01:00
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colorlist = []
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2022-11-10 12:04:31 +01:00
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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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2022-11-18 12:15:32 +01:00
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if not True:
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mydict = dict(x=ant.Ex, y=ant.Ex, z=ant.Ez)
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else:
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mydict = dict(b=ant.beacon)
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for j, (direction, trace) in enumerate(mydict.items()):
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l = axs[0].plot(ant.t, trace, label=f"E{direction} {ant.name}")
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if j == 0 and 't0' in ant.attrs:
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axs[0].axvline(ant.attrs['t0'], color=l[0].get_color(), alpha=0.5)
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colorlist.append(l[0].get_color())
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if not plot_ft_amplitude:
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continue
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2022-11-10 12:04:31 +01:00
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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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2022-11-18 19:36:48 +01:00
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2022-11-18 12:15:32 +01:00
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#axs[1].plot(freqs, np.abs(fft)**2, color=l[0].get_color())
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if True:
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cft = lib.direct_fourier_transform(f_beacon, ant.t, trace)
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amp = 2*len(ant.t) * (cft[0]**2 + cft[1]**2)
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#axs[0].axhline(amp, color=l[0].get_color())
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print(amp)
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phase = np.arctan2(cft[0],cft[1])
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axs[1].plot(f_beacon, amp, color=l[0].get_color(), marker='3')
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axs[2].plot(f_beacon, phase, color=l[0].get_color(), marker='3')
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if plot_ft_amplitude:
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fig1.legend(loc='center right', ncol=min(3, len(idx)))
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else:
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fig1.legend(loc='upper right', ncol=min(3, len(idx)))
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2022-11-10 12:04:31 +01:00
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2022-11-18 12:15:32 +01:00
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if plot_geometry:
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fig2, axs2 = plt.subplots(1)
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plot_antenna_geometry(antennas, ax=axs2, plot_max_values=False, color='grey', plot_names=False)
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plot_antenna_geometry([ antennas[i] for i in idx], ax=axs2, colors=colorlist, plot_max_values=False)
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axs2.plot(tx.x, tx.y, marker='X', color='k')
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2022-11-18 19:36:48 +01:00
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axs2.set_title("Geometry with selected antennas")
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2022-11-10 12:04:31 +01:00
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#fig1.savefig('./fig1.png')
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plt.show()
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