mirror of
https://github.com/hb9fxq/gr-digitalhf
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178 lines
6.7 KiB
Python
178 lines
6.7 KiB
Python
## -*- python -*-
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from __future__ import print_function
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import numpy as np
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import common
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from digitalhf.digitalhf_swig import viterbi27
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## 192 = 6*32
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PREAMBLE=np.array([7,0,3,4,1,1,1,0,2,6,1,5,1,7,0,3,5,4,2,2,6,1,2,2,0,4,5,4,1,2,2,6,
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7,0,7,0,1,1,5,4,2,6,5,1,1,7,4,7,5,4,6,6,6,1,6,6,0,4,1,0,1,2,6,2,
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7,4,7,4,1,5,5,0,2,2,5,5,1,3,4,3,5,0,6,2,6,5,6,2,0,0,1,4,1,6,6,6,
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7,0,3,4,5,5,5,4,2,6,1,5,5,3,4,7,5,4,2,2,2,5,6,6,0,4,5,4,5,6,6,2,
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7,4,3,0,1,5,1,4,2,2,1,1,1,3,0,7,5,0,2,6,6,5,2,6,0,0,5,0,1,6,2,2,
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7,4,3,0,5,1,5,0,2,2,1,1,5,7,4,3,5,0,2,6,2,1,6,2,0,0,5,0,5,2,6,6],
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dtype=np.uint8)
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## ---- data scrambler -----------------------------------------------------------
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class ScrambleData(object):
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"""data scrambling sequence generator"""
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def __init__(self):
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self.reset()
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def reset(self):
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self._state = 0xBAD
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self._counter = 0
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def next(self):
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if self._counter == 160:
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self.reset()
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for j in range(8):
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self._advance()
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self._counter += 1
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return self._state&7
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def _advance(self):
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msb = self._state>>11
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self._state = (self._state<<1)&4095
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if msb:
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self._state ^= 0x053
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return self._state
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## ---- constellation indices ---------------------------------------------------
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MODE_BPSK=0
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MODE_QPSK=1
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## ---- physcal layer class -----------------------------------------------------
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class PhysicalLayer(object):
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"""Physical layer description for MIL-STD-188-110 Appendix D = STANAG 4539"""
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def __init__(self, sps):
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"""intialization"""
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self._sps = sps
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self._frame_counter = -1
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self._constellations = [self.make_psk(2, [0,1]),
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self.make_psk(4, [0,1,3,2])]
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self._preamble = self.get_preamble()
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self._scr_data = ScrambleData()
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self._intl_idx = np.mod(17*np.arange(90, dtype=np.uint32), 90)
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self._viterbi_decoder = viterbi27(0x6d, 0x4f)
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self._viterbi_decoder2 = viterbi27(0x67, 0x5d)
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##self._data = self.get_data()
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def get_constellations(self):
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return self._constellations
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def get_next_frame(self, symbols):
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"""returns a tuple describing the frame:
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[0] ... known+unknown symbols and scrambling
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[1] ... modulation type after descrambling
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[2] ... a boolean indicating if the processing should continue
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[3] ... a boolean indicating if the soft decision for the unknown
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symbols are saved"""
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print('-------------------- get_frame --------------------',
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self._frame_counter)
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success = True
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if len(symbols) == 0:
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self._frame_counter = -1
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self._scr_data.reset()
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if self._frame_counter == -1:
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self._frame_counter += 1
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return [self.get_preamble(),MODE_BPSK,success,False]
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else:
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z = np.mean(symbols[-19:])
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print('CHECK:', z)
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success = np.real(z) > 0.5 and np.abs(np.imag(z)) < 0.5
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a = np.zeros(64, dtype=common.SYMB_SCRAMBLE_DTYPE)
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a['scramble'] = common.n_psk(8, np.array([self._scr_data.next() for _ in range(64)]))
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a['symb'][-19:] = a['scramble'][-19:]
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self._frame_counter += 1
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return [a,MODE_QPSK,success,success]
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def get_doppler(self, iq_samples):
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"""returns a tuple
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[0] ... quality flag
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[1] ... doppler estimate (rad/symbol) if available"""
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print('-------------------- get_doppler --------------------',
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self._frame_counter,len(iq_samples))
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sps = self._sps
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_,zp = self.get_preamble_z()
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wlen = 32
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cc = np.correlate(iq_samples, zp)
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imax = np.argmax(np.abs(cc[0:wlen*sps]))
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idx = np.arange(wlen*sps)
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pks = [np.correlate(iq_samples[imax+i*wlen*sps+idx],
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zp[i*wlen*sps+idx])[0]
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for i in range((len(iq_samples)-imax) // (wlen*sps))]
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print('get_doppler pks: ', pks, np.angle(pks))
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doppler = common.freq_est(pks)/(wlen*sps)
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print('get_doppler doppler: ', doppler)
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success = True
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return success,0*doppler
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def set_mode(self, mode):
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pass
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def decode_soft_dec(self, soft_dec):
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print('decode_soft_dec', self._frame_counter)
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assert(len(soft_dec) == 90)
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deintl_soft_dec = np.zeros(90, dtype=np.float64)
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deintl_soft_dec[self._intl_idx] = soft_dec
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print('decode_soft_dec', deintl_soft_dec)
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if self._frame_counter == 2:
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self._viterbi_decoder.reset()
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decoded_bits = self._viterbi_decoder.udpate(deintl_soft_dec)
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print('bits=', decoded_bits)
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print('quality={}% ({},{})'.format(100.0*self._viterbi_decoder.quality()/(2*len(decoded_bits)),
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self._viterbi_decoder.quality(),
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len(decoded_bits)))
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return decoded_bits
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else:
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depunct_deintl_soft_dec = np.zeros(90//3*4, dtype=np.float64)
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depunct_deintl_soft_dec[0::4] = deintl_soft_dec[0::3]
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depunct_deintl_soft_dec[1::4] = deintl_soft_dec[1::3]
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depunct_deintl_soft_dec[2::4] = deintl_soft_dec[2::3]
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depunct_deintl_soft_dec[3::4] = 0
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self._viterbi_decoder2.reset()
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decoded_bits = self._viterbi_decoder2.udpate(depunct_deintl_soft_dec)
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print('bits=', decoded_bits)
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print('quality={}% ({},{})'.format(100.0*4/3.5*self._viterbi_decoder2.quality()/(2*len(decoded_bits)),
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self._viterbi_decoder2.quality(),
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len(decoded_bits)))
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return decoded_bits
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def get_preamble(self):
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"""preamble symbols + scrambler"""
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a = np.zeros(len(PREAMBLE), dtype=common.SYMB_SCRAMBLE_DTYPE)
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a['symb'] = common.n_psk(8, PREAMBLE)
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a['scramble'] = common.n_psk(8, PREAMBLE)
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return a
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def get_preamble_z(self):
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"""preamble symbols for preamble correlation"""
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a = self.get_preamble()
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return 2,np.array([z for z in a['symb'] for _ in range(self._sps)])
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@staticmethod
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def make_psk(n, gray_code):
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"""generates n-PSK constellation data"""
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c = np.zeros(n, dtype=common.CONST_DTYPE)
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c['points'] = common.n_psk(n,np.arange(n))
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c['symbols'] = gray_code
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return c
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if __name__ == '__main__':
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print(PREAMBLE)
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z = common.n_psk(8,PREAMBLE)
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cc = [np.sum(z[0:32]*np.conj(z[32*i:32*i+32])) for i in range(6)]
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print(np.abs(cc))
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print(np.angle(cc)/np.pi*4)
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print(z)
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