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https://gitlab.science.ru.nl/mthesis-edeboone/m-thesis-introduction.git
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ZH: rename period shower script
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83dafb0cc6
commit
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2 changed files with 56 additions and 27 deletions
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@ -28,7 +28,7 @@ def antenna_true_phases(tx, antennas, freq_name, c_light=3e8):
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geom_time = lib.geometry_time(tx, ant, c_light=c_light)
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geom_time = lib.geometry_time(tx, ant, c_light=c_light)
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geom_phase = geom_time * 2*np.pi*f_beacon
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geom_phase = geom_time * 2*np.pi*f_beacon
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true_phases[i] = lib.phase_mod( lib.phase_mod(geom_phase) - lib.phase_mod(measured_phase))
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true_phases[i] = lib.phase_mod(lib.phase_mod(measured_phase) - lib.phase_mod(geom_phase) )
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return true_phases
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return true_phases
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@ -18,7 +18,7 @@ import aa_generate_beacon as beacon
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import lib
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import lib
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from lib import rit
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from lib import rit
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def find_best_sample_shifts_summing_at_location(test_loc, antennas, allowed_sample_shifts, dt=1):
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def find_best_sample_shifts_summing_at_location(test_loc, antennas, allowed_sample_shifts, dt=None, sample_shift_first_trace=0):
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"""
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"""
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Find the best sample_shift for each antenna by summing the antenna traces
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Find the best sample_shift for each antenna by summing the antenna traces
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and seeing how to get the best alignment.
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and seeing how to get the best alignment.
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@ -28,6 +28,9 @@ def find_best_sample_shifts_summing_at_location(test_loc, antennas, allowed_samp
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t_min = 1e9
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t_min = 1e9
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t_max = -1e9
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t_max = -1e9
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if dt is None:
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dt = antennas[0].t_AxB[1] - antennas[0].t_AxB[0]
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# propagate to test location
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# propagate to test location
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for i, ant in enumerate(antennas):
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for i, ant in enumerate(antennas):
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aloc = [ant.x, ant.y, ant.z]
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aloc = [ant.x, ant.y, ant.z]
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@ -52,13 +55,12 @@ def find_best_sample_shifts_summing_at_location(test_loc, antennas, allowed_samp
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best_sample_shifts = np.zeros( (len(antennas)) ,dtype=int)
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best_sample_shifts = np.zeros( (len(antennas)) ,dtype=int)
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for i, (t_r, E_) in enumerate(zip(t_, a_)):
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for i, (t_r, E_) in enumerate(zip(t_, a_)):
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t_min = t_r[0]
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f = interp1d(t_r, E_, assume_sorted=True, bounds_error=False, fill_value=0)
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f = interp1d(t_r, E_, assume_sorted=True, bounds_error=False, fill_value=0)
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a_int = f(t_sum)
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a_int = f(t_sum)
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if i == 0:
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if i == 0:
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a_sum += a_int
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a_sum += a_int
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best_sample_shifts[i] = 0
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best_sample_shifts[i] = sample_shift_first_trace
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continue
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continue
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shift_maxima = np.zeros( len(allowed_sample_shifts) )
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shift_maxima = np.zeros( len(allowed_sample_shifts) )
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@ -84,10 +86,13 @@ if __name__ == "__main__":
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fname = "ZH_airshower/mysim.sry"
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fname = "ZH_airshower/mysim.sry"
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allowed_ks = np.arange(-2, 3, 1)
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allowed_ks = np.arange(-2, 3, 1)
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Xref = 450
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Xref = 400
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x_coarse = np.linspace(-2e3, 2e3, 11)
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x_coarse = np.linspace(-20e3, 20e3, 10)
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y_coarse = np.linspace(-2e3, 2e3, 11)
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y_coarse = np.linspace(-20e3, 20e3, 10)
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x_fine = np.linspace(-2e3, 2e3, 30)
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y_fine = np.linspace(-2e3, 2e3, 30)
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####
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####
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fname_dir = path.dirname(fname)
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fname_dir = path.dirname(fname)
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@ -111,7 +116,8 @@ if __name__ == "__main__":
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# determine best ks per location
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# determine best ks per location
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dt = ev.antennas[0].t[1] - ev.antennas[0].t[0]
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dt = ev.antennas[0].t[1] - ev.antennas[0].t[0]
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allowed_sample_shifts = np.ceil(allowed_ks/f_beacon /dt).astype(int)
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allowed_sample_shifts = np.rint(allowed_ks/f_beacon /dt).astype(int)
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print("Checking:", allowed_ks, ": shifts :", allowed_sample_shifts)
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# Remove time due to true phase
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# Remove time due to true phase
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@ -134,15 +140,16 @@ if __name__ == "__main__":
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x = x_coarse
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x = x_coarse
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y = y_coarse
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y = y_coarse
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else:
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else:
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best_idx = np.argmax(maxima_per_loc)
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if r == 1:
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xoff = xx[best_idx]
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x = x_fine
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yoff = yy[best_idx]
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y = y_fine
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else:
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x /= 4
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x /= 4
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y /= 4
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y /= 4
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print(f"Testing grid {r} centered on {xoff}, {yoff}")
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print(f"Testing grid run {r} centered on {xoff}, {yoff}")
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ks_per_loc = np.zeros( (len(x)*len(y), len(ev.antennas)) )
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ks_per_loc = np.zeros( (len(x)*len(y), len(ev.antennas)) , dtype=int)
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maxima_per_loc = np.zeros( (len(x)*len(y)))
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maxima_per_loc = np.zeros( (len(x)*len(y)))
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## Check each location on grid
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## Check each location on grid
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@ -160,18 +167,13 @@ if __name__ == "__main__":
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shifts, maximum = find_best_sample_shifts_summing_at_location(test_loc, ev.antennas, allowed_sample_shifts, dt)
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shifts, maximum = find_best_sample_shifts_summing_at_location(test_loc, ev.antennas, allowed_sample_shifts, dt)
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# Translate sample shifts back into period multiple k
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# Translate sample shifts back into period multiple k
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ks = shifts*f_beacon*dt
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ks = np.rint(shifts*f_beacon*dt)
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ks_per_loc[i] = ks
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ks_per_loc[i] = ks
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maxima_per_loc[i] = maximum
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maxima_per_loc[i] = maximum
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xx = np.array(xx)
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xx = np.array(xx)
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yy = np.array(yy)
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yy = np.array(yy)
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best_idx = np.argmax(maxima_per_loc)
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np.savetxt(__file__+f'.run{r}.txt')
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print(ks_per_loc[best_idx])
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if True: #plot maximum at test locations
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if True: #plot maximum at test locations
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fig, axs = plt.subplots()
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fig, axs = plt.subplots()
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axs.set_title(f"Grid Run {r}")
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axs.set_title(f"Grid Run {r}")
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@ -181,4 +183,31 @@ if __name__ == "__main__":
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fig.colorbar(sc, ax=axs)
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fig.colorbar(sc, ax=axs)
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fig.savefig(__file__+f'.run{r}.pdf')
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fig.savefig(__file__+f'.run{r}.pdf')
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## Save ks to file
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best_idx = np.argmax(maxima_per_loc)
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np.savetxt(__file__+f'.bestk.run{r}.txt', ks_per_loc[best_idx] )
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print(ks_per_loc[best_idx])
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## Save maxima to file
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np.savetxt(__file__+f'.maxima.run{r}.txt', maxima_per_loc)
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# Abort if no improvement
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if ( r!= 0 and (old_ks_per_loc == ks_per_loc[best_idx]).all() ):
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print("No improvement, breaking")
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break
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# Prepare variables for next loop
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old_ks_per_loc = ks_per_loc[best_idx]
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xoff = xx[best_idx]
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yoff = yy[best_idx]
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# Save best ks to hdf5 antenna file
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with h5py.File(antennas_fname, 'a') as fp:
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group = fp.require_group('antennas')
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for i, ant in enumerate(antennas):
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h5ant = group[ant.name]
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h5ant.attrs['best_k'] = old_ks_per_loc[i]
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plt.show()
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plt.show()
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