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ZH: optional trace extender (WIP)
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3 changed files with 28 additions and 10 deletions
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@ -264,7 +264,7 @@ if __name__ == "__main__":
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low_bp = 30e-3 # GHz
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low_bp = 30e-3 # GHz
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high_bp = 80e-3 # GHz
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high_bp = 80e-3 # GHz
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beacon_amplitudes = 1e-6*np.array([1e5, 0, 0]) # mu V/m
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beacon_amplitudes = 1e-6*np.array([1e3, 0, 0]) # mu V/m
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beacon_radiate_rsq = True # beacon_amplitude is repaired for distance to 0,0,0
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beacon_radiate_rsq = True # beacon_amplitude is repaired for distance to 0,0,0
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# modify beacon power to be beacon_amplitude at 0,0,0
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# modify beacon power to be beacon_amplitude at 0,0,0
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@ -303,15 +303,30 @@ if __name__ == "__main__":
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# make beacon per antenna
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# make beacon per antenna
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for i, antenna in enumerate(ev.antennas):
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for i, antenna in enumerate(ev.antennas):
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if False:
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if False: # modify trace lengths
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t0 = lib.distance(tx, antenna)/3e8 * 1e9 # ns
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N_samples = len(antenna.t)
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c_light = np.inf
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new_N = 2*N_samples
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else:
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dt = antenna.t[1] - antenna.t[0]
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new_t = np.arange(0, new_N)*dt + antenna.t[0]
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antenna.t = new_t
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# TODO:trace extrapolation?
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antenna.Ex = np.pad(antenna.Ex, (0, new_N-N_samples), mode='constant', constant_values=0)
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antenna.Ey = np.pad(antenna.Ey, (0, new_N-N_samples), mode='constant', constant_values=0)
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antenna.Ez = np.pad(antenna.Ez, (0, new_N-N_samples), mode='constant', constant_values=0)
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t0 = 0
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t0 = 0
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c_light = 3e8*1e-9 # m/ns
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c_light = 3e8*1e-9 # m/ns
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if False:
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# precalculate t0
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# set c_light=np.inf to suppress the time delay
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# in the function call
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t0 = lib.distance(tx, antenna)/c_light
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c_light = np.inf
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beacon = lib.beacon_from(tx, antenna, f_beacon, antenna.t, t0=t0, c_light=c_light, radiate_rsq=beacon_radiate_rsq)
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beacon = lib.beacon_from(tx, antenna, f_beacon, antenna.t, t0=t0, c_light=c_light, radiate_rsq=beacon_radiate_rsq)
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traces = np.array([antenna.Ex, antenna.Ey, antenna.Ez, beacon])
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traces = np.array([antenna.Ex, antenna.Ey, antenna.Ez, beacon])
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# add to relevant polarisation
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# add to relevant polarisation
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@ -323,8 +338,9 @@ if __name__ == "__main__":
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append_antenna_hdf5( antennas_fname, antenna, traces, name='traces', prepend_time=True, attrs_dict=dict(t0=t0))
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append_antenna_hdf5( antennas_fname, antenna, traces, name='traces', prepend_time=True, attrs_dict=dict(t0=t0))
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# Save E field in E_AxB
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# Save E field in E_AxB
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E = [np.dot(ev.uAxB,[ex,ey,ez]) for ex,ey,ez in zip(traces[0], traces[1], traces[2])]
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E_AxB = [np.dot(ev.uAxB,[ex,ey,ez]) for ex,ey,ez in zip(traces[0], traces[1], traces[2])]
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t_AxB = antenna.t
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append_antenna_hdf5( antennas_fname, antenna, [E], name='E_AxB', prepend_time=True)
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append_antenna_hdf5( antennas_fname, antenna, [t_AxB, E_AxB], name='E_AxB', prepend_time=False)
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print("Antenna HDF5 file written as " + str(antennas_fname))
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print("Antenna HDF5 file written as " + str(antennas_fname))
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@ -19,7 +19,7 @@ if __name__ == "__main__":
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from os import path
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from os import path
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import sys
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import sys
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max_clock_offset = 100 if len(sys.argv) < 1 else int(sys.argv[1]) # ns
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max_clock_offset = 100 if len(sys.argv) < 2 else int(sys.argv[1]) # ns
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remake_clock_offsets = True
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remake_clock_offsets = True
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seed = 12345
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seed = 12345
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@ -42,6 +42,8 @@ def geometry_time(dist, x2=None, c_light=3e8):
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def beacon_from(tx, rx, f, t=0, t0=0, c_light=3e8, radiate_rsq=True, amplitude=1,**kwargs):
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def beacon_from(tx, rx, f, t=0, t0=0, c_light=3e8, radiate_rsq=True, amplitude=1,**kwargs):
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dist = distance(tx,rx)
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dist = distance(tx,rx)
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# suppress extra time delay from distance
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if c_light is not None and np.isfinite(c_light):
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t0 = t0 + dist/c_light
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t0 = t0 + dist/c_light
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if radiate_rsq:
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if radiate_rsq:
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