/** * * \section COPYRIGHT * * Copyright 2013-2014 The libLTE Developers. See the * COPYRIGHT file at the top-level directory of this distribution. * * \section LICENSE * * This file is part of the libLTE library. * * libLTE is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as * published by the Free Software Foundation, either version 3 of * the License, or (at your option) any later version. * * libLTE is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * A copy of the GNU Lesser General Public License can be found in * the LICENSE file in the top-level directory of this distribution * and at http://www.gnu.org/licenses/. * */ #include #include #include #include "liblte/phy/modem/demod_hard.h" #include "hard_demod_lte.h" /** * @ingroup Hard BPSK demodulator * *LTE-BPSK constellation: * Q * | 0 *---------> I *1 | * \param in input symbols (_Complex float) * \param out output symbols (uint8_ts) * \param N Number of input symbols * \param modulation Modulation type */ inline void hard_bpsk_demod(const cf_t* in, uint8_t* out, uint32_t N) { uint32_t s; for (s=0; s 0) { if ((__imag__ in[s] > 0) || (__real__ in[s] > -__imag__ in[s])) { out[s] = 0x0; } else { out[s] = 0x1; } } else { if ((__imag__ in[s] < 0) || (__imag__ in[s] < -__real__ in[s])) { out[s] = 0x1; } else { out[s] = 0x0; } } } } /** * @ingroup Hard QPSK demodulator * * LTE-QPSK constellation: * Q *10 | 00 *-----------> I *11 | 01 * * \param in input symbols (_Complex float) * \param out output symbols (uint8_ts) * \param N Number of input symbols * \param modulation Modulation type */ inline void hard_qpsk_demod(const cf_t* in, uint8_t* out, uint32_t N) { uint32_t s; for (s=0; s 0) { out[2*s] = 0x0; } else { out[2*s] = 0x1; } if (__imag__ in[s] > 0) { out[2*s+1] = 0x0; } else { out[2*s+1] = 0x1; } } } /** * @ingroup Hard 16QAM demodulator * * LTE-16QAM constellation: * Q * 1011 1001 | 0001 0011 * 1010 1000 | 0000 0010 *---------------------------------> I * 1110 1100 | 0100 0110 * 1111 1101 | 0101 0111 * * \param in input symbols (_Complex float) * \param out output symbols (uint8_ts) * \param N Number of input symbols * \param modulation Modulation type */ inline void hard_qam16_demod(const cf_t* in, uint8_t* out, uint32_t N) { uint32_t s; for (s=0; s 0) { out[4*s] = 0x0; } else { out[4*s] = 0x1; } if ((__real__ in[s] > QAM16_THRESHOLD) || (__real__ in[s] < -QAM16_THRESHOLD)) { out[4*s+2] = 0x1; } else { out[4*s+2] = 0x0; } if (__imag__ in[s] > 0) { out[4*s+1] = 0x0; } else { out[4*s+1] = 0x1; } if ((__imag__ in[s] > QAM16_THRESHOLD) || (__imag__ in[s] < -QAM16_THRESHOLD)) { out[4*s+3] = 0x1; } else { out[4*s+3] = 0x0; } } } /** * @ingroup Hard 64QAM demodulator * * LTE-64QAM constellation: * see [3GPP TS 36.211 version 10.5.0 Release 10, Section 7.1.4] * * \param in input symbols (_Complex float) * \param out output symbols (uint8_ts) * \param N Number of input symbols * \param modulation Modulation type */ inline void hard_qam64_demod(const cf_t* in, uint8_t* out, uint32_t N) { uint32_t s; for (s=0; s 0){ out[6*s] = 0x0; } else { out[6*s] = 0x1; } if ((__real__ in[s] > QAM64_THRESHOLD_3) || (__real__ in[s] < -QAM64_THRESHOLD_3)) { out[6*s+2] = 0x1; out[6*s+4] = 0x1; } else if ((__real__ in[s] > QAM64_THRESHOLD_2) || (__real__ in[s] < -QAM64_THRESHOLD_2)) { out[6*s+2] = 0x1; out[6*s+4] = 0x0; } else if ((__real__ in[s] > QAM64_THRESHOLD_1) || (__real__ in[s] < -QAM64_THRESHOLD_1)) { out[6*s+2] = 0x0; out[6*s+4] = 0x0; } else { out[6*s+2] = 0x0; out[6*s+4] = 0x1; } /* bits associated with/obtained from quadrature component: b1, b3, b5 */ if (__imag__ in[s] > 0){ out[6*s+1] = 0x0; } else { out[6*s+1] = 0x1; } if ((__imag__ in[s] > QAM64_THRESHOLD_3) || (__imag__ in[s] < -QAM64_THRESHOLD_3)) { out[6*s+3] = 0x1; out[6*s+5] = 0x1; } else if ((__imag__ in[s] > QAM64_THRESHOLD_2) || (__imag__ in[s] < -QAM64_THRESHOLD_2)) { out[6*s+3] = 0x1; out[6*s+5] = 0x0; } else if ((__imag__ in[s] > QAM64_THRESHOLD_1) || (__imag__ in[s] < -QAM64_THRESHOLD_1)) { out[6*s+3] = 0x0; out[6*s+5] = 0x0; } else { out[6*s+3] = 0x0; out[6*s+5] = 0x1; } } }