/*! * \file Galileo_Navigation_Message.cc * \brief Implementation of a Galileo I/NAV Data message * as described in Galileo OS SIS ICD Issue 1.1 (Sept. 2010) * \author Mara Branzanti 2013. mara.branzanti(at)gmail.com * \author Javier Arribas, 2013. jarribas(at)cttc.es * * ------------------------------------------------------------------------- * * Copyright (C) 2010-2013 (see AUTHORS file for a list of contributors) * * GNSS-SDR is a software defined Global Navigation * Satellite Systems receiver * * This file is part of GNSS-SDR. * * GNSS-SDR is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * at your option) any later version. * * GNSS-SDR 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GNSS-SDR. If not, see . * * ------------------------------------------------------------------------- */ #include "galileo_navigation_message.h" #include #include // for boost::crc_basic, boost::crc_optimal #include #include #include #include #include typedef boost::crc_optimal<24, 0x1864CFBu, 0x0, 0x0, false, false> CRC_Galileo_INAV_type; void Galileo_Navigation_Message::reset() { flag_even_word = 0; Page_type_time_stamp = 0; flag_CRC_test = false; flag_all_ephemeris = false; // flag indicating that all words containing ephemeris have been received flag_ephemeris_1 = false; // flag indicating that ephemeris 1/4 (word 1) have been received flag_ephemeris_2 = false; // flag indicating that ephemeris 2/4 (word 2) have been received flag_ephemeris_3 = false; // flag indicating that ephemeris 3/4 (word 3) have been received flag_ephemeris_4 = false; // flag indicating that ephemeris 4/4 (word 4) have been received flag_iono_and_GST = false; // flag indicating that ionospheric parameters (word 5) have been received flag_utc_model = false; // flag indicating that utc model parameters (word 6) have been received flag_all_almanac = false; // flag indicating that all almanac have been received flag_almanac_1 = false; // flag indicating that almanac 1/4 (word 7) have been received flag_almanac_2 = false; // flag indicating that almanac 2/4 (word 8) have been received flag_almanac_3 = false; // flag indicating that almanac 3/4 (word 9) have been received flag_almanac_4 = false; // flag indicating that almanac 4/4 (word 10) have been received flag_TOW_5 = 0; flag_TOW_set = false; flag_GGTO= false; flag_GGTO_1= false; flag_GGTO_2= false; flag_GGTO_3= false; flag_GGTO_4= false; IOD_ephemeris = 0; /*Word type 1: Ephemeris (1/4)*/ IOD_nav_1 = 0; t0e_1 = 0; M0_1 = 0; e_1 = 0; A_1 = 0; /*Word type 2: Ephemeris (2/4)*/ IOD_nav_2 = 0; // IOD_nav page 2 OMEGA_0_2 = 0; // Longitude of ascending node of orbital plane at weekly epoch [semi-circles] i_0_2 = 0; // Inclination angle at reference time [semi-circles] omega_2 = 0; // Argument of perigee [semi-circles] iDot_2 = 0; // Rate of inclination angle [semi-circles/sec] /*Word type 3: Ephemeris (3/4) and SISA*/ IOD_nav_3 = 0; // OMEGA_dot_3 = 0; // Rate of right ascension [semi-circles/sec] delta_n_3 = 0; // Mean motion difference from computed value [semi-circles/sec] C_uc_3 = 0; // Amplitude of the cosine harmonic correction term to the argument of latitude [radians] C_us_3 = 0; // Amplitude of the sine harmonic correction term to the argument of latitude [radians] C_rc_3 = 0; // Amplitude of the cosine harmonic correction term to the orbit radius [meters] C_rs_3 = 0; // Amplitude of the sine harmonic correction term to the orbit radius [meters] SISA_3 = 0; // /*Word type 4: Ephemeris (4/4) and Clock correction parameters*/ IOD_nav_4 = 0; // SV_ID_PRN_4 = 0; // C_ic_4 = 0; // Amplitude of the cosine harmonic correction term to the angle of inclination [radians] C_is_4 = 0; // Amplitude of the sine harmonic correction term to the angle of inclination [radians] /*Clock correction parameters*/ t0c_4 = 0; // af0_4 = 0; // af1_4 = 0; // af2_4 = 0; // spare_4 = 0; /*Word type 5: Ionospheric correction, BGD, signal health and data validity status and GST*/ /*Ionospheric correction*/ /*Az*/ ai0_5 = 0; // ai1_5 = 0; // ai2_5 = 0; // /*Ionospheric disturbance flag*/ Region1_flag_5 = 0; // Region1_flag_5; Region2_flag_5 = 0; // Region3_flag_5 = 0; // Region4_flag_5 = 0; // Region5_flag_5 = 0; // BGD_E1E5a_5 = 0; // BGD_E1E5b_5 = 0; // E5b_HS_5 = 0; E1B_HS_5 = 0; E5b_DVS_5 = 0; // E1B_DVS_5 = 0; // /*GST*/ WN_5 = 0; TOW_5 = 0; spare_5 = 0; /*Word type 6: GST-UTC conversion parameters*/ A0_6 = 0; A1_6 = 0; Delta_tLS_6 = 0; t0t_6 = 0; WNot_6 = 0; WN_LSF_6 = 0; DN_6 = 0; Delta_tLSF_6 = 0; TOW_6 = 0; /*Word type 7: Almanac for SVID1 (1/2), almanac reference time and almanac reference week number*/ IOD_a_7 = 0; WN_a_7 = 0; t0a_7 = 0; SVID1_7 = 0; DELTA_A_7 = 0; e_7 = 0; omega_7 = 0; delta_i_7 = 0; Omega0_7 = 0; Omega_dot_7 = 0; M0_7 = 0; /*Word type 8: Almanac for SVID1 (2/2) and SVID2 (1/2)*/ IOD_a_8 = 0; af0_8 = 0; af1_8 = 0; E5b_HS_8 = 0; E1B_HS_8 = 0; SVID2_8 = 0; DELTA_A_8 = 0; e_8 = 0; omega_8 = 0; delta_i_8 = 0; Omega0_8 = 0; Omega_dot_8 = 0; /*Word type 9: Almanac for SVID2 (2/2) and SVID3 (1/2)*/ IOD_a_9 = 0; WN_a_9 = 0; t0a_9 = 0; M0_9 = 0; af0_9 = 0; af1_9 = 0; E5b_HS_9 = 0; E1B_HS_9 = 0; SVID3_9 = 0; DELTA_A_9 = 0; e_9 = 0; omega_9 = 0; delta_i_9 = 0; /*Word type 10: Almanac for SVID3 (2/2) and GST-GPS conversion parameters*/ IOD_a_10 = 0; Omega0_10 = 0; Omega_dot_10 = 0; M0_10 = 0; af0_10 = 0; af1_10 = 0; E5b_HS_10 = 0; E1B_HS_10 = 0; //GST-GPS A_0G_10 = 0; A_1G_10 = 0; t_0G_10 = 0; WN_0G_10 = 0; /*Word type 0: I/NAV Spare Word*/ Time_0 = 0; WN_0 = 0; TOW_0 = 0; } Galileo_Navigation_Message::Galileo_Navigation_Message() { reset(); } bool Galileo_Navigation_Message::CRC_test(std::bitset bits,boost::uint32_t checksum) { CRC_Galileo_INAV_type CRC_Galileo; boost::uint32_t crc_computed; // Galileo INAV frame for CRC is not an integer multiple of bytes // it needs to be filled with zeroes at the start of the frame. // This operation is done in the transformation from bits to bytes // using boost::dynamic_bitset. // ToDo: Use boost::dynamic_bitset for all the bitset operations in this class boost::dynamic_bitset frame_bits(std::string(bits.to_string())); std::vector bytes; boost::to_block_range(frame_bits, std::back_inserter(bytes)); std::reverse(bytes.begin(),bytes.end()); CRC_Galileo.process_bytes( bytes.data(), GALILEO_DATA_FRAME_BYTES ); crc_computed = CRC_Galileo.checksum(); if (checksum == crc_computed) { return true; } else { return false; } } unsigned long int Galileo_Navigation_Message::read_navigation_unsigned(std::bitset bits, const std::vector > parameter) { unsigned long int value = 0; int num_of_slices = parameter.size(); for (int i = 0; i < num_of_slices; i++) { for (int j = 0; j < parameter[i].second; j++) { value <<= 1; //shift left if (bits[GALILEO_DATA_JK_BITS - parameter[i].first - j] == 1) { value += 1; // insert the bit } } } return value; } unsigned long int Galileo_Navigation_Message::read_page_type_unsigned(std::bitset bits, const std::vector > parameter) { unsigned long int value = 0; int num_of_slices = parameter.size(); for (int i = 0; i < num_of_slices; i++) { for (int j = 0; j < parameter[i].second; j++) { value <<= 1; //shift left if (bits[GALILEO_PAGE_TYPE_BITS - parameter[i].first - j] == 1) { value += 1; // insert the bit } } } return value; } signed long int Galileo_Navigation_Message::read_navigation_signed(std::bitset bits, const std::vector > parameter) { signed long int value = 0; int num_of_slices = parameter.size(); // Discriminate between 64 bits and 32 bits compiler int long_int_size_bytes = sizeof(signed long int); if (long_int_size_bytes == 8) // if a long int takes 8 bytes, we are in a 64 bits system { // read the MSB and perform the sign extension if (bits[GALILEO_DATA_JK_BITS - parameter[0].first] == 1) { value ^= 0xFFFFFFFFFFFFFFFF; //64 bits variable } else { value &= 0; } for (int i = 0; i < num_of_slices; i++) { for (int j = 0; j < parameter[i].second; j++) { value <<= 1; //shift left value &= 0xFFFFFFFFFFFFFFFE; //reset the corresponding bit (for the 64 bits variable) if (bits[GALILEO_DATA_JK_BITS - parameter[i].first - j] == 1) { value += 1; // insert the bit } } } } else // we assume we are in a 32 bits system { // read the MSB and perform the sign extension if (bits[GALILEO_DATA_JK_BITS - parameter[0].first] == 1) { value ^= 0xFFFFFFFF; } else { value &= 0; } for (int i = 0; i < num_of_slices; i++) { for (int j = 0; j < parameter[i].second; j++) { value <<= 1; //shift left value &= 0xFFFFFFFE; //reset the corresponding bit if (bits[GALILEO_DATA_JK_BITS - parameter[i].first - j] == 1) { value += 1; // insert the bit } } } } return value; } bool Galileo_Navigation_Message::read_navigation_bool(std::bitset bits, const std::vector > parameter) { bool value; if (bits[GALILEO_DATA_JK_BITS - parameter[0].first] == 1) { value = true; } else { value = false; } return value; } void Galileo_Navigation_Message::split_page(std::string page_string, int flag_even_word) { // ToDo: Clean all the tests and create an independent google test code for the telemetry decoder. //char correct_tail[7]="011110"; //the viterbi decoder output change the tail to this value (why?) //char correct_tail[7]="000000"; int Page_type = 0; //std::cout << "Start decoding Galileo I/NAV " << std::endl; if(page_string.at(0) == '1')// if page is odd { //std::cout<< "page_string.at(0) split page="< TLM_word_for_CRC_bits(TLM_word_for_CRC); std::bitset<24> checksum(CRC_data); //if (Tail_odd.compare(correct_tail) != 0) // std::cout << "Tail odd is not correct!" << std::endl; //else std::cout<<"Tail odd is correct!"< page_type_bits (page_number_bits); // from string to bitset Page_type = (int)read_page_type_unsigned(page_type_bits, type); Page_type_time_stamp = Page_type; std::string Data_jk_ephemeris = Data_k + Data_j; page_jk_decoder(Data_jk_ephemeris.c_str()); } else { // Wrong CRC... discard frame flag_CRC_test = false; } } // end of CRC checksum control } // end if (page_string.at(0)=='1') else { page_Even = page_string.substr (0,114); std::string tail_Even = page_string.substr (114,6); //std::cout << "tail_even_string: " << tail_Even < data_jk_bits (data_jk_string); //DLOG(INFO) << "Data_jk_bits (bitset) "<< endl << data_jk_bits << endl; page_number = (int)read_navigation_unsigned(data_jk_bits, PAGE_TYPE_bit); LOG(INFO) << "Page number = " << page_number; switch (page_number) { case 1: /*Word type 1: Ephemeris (1/4)*/ IOD_nav_1 = (int)read_navigation_unsigned(data_jk_bits, IOD_nav_1_bit); DLOG(INFO) << "IOD_nav_1= " << IOD_nav_1; t0e_1 = (double)read_navigation_unsigned(data_jk_bits, T0E_1_bit); t0e_1 = t0e_1 * t0e_1_LSB; DLOG(INFO) << "t0e_1= " << t0e_1; M0_1 = (double)read_navigation_signed(data_jk_bits, M0_1_bit); M0_1 = M0_1 * M0_1_LSB; DLOG(INFO) << "M0_1= " << M0_1; e_1 = (double)read_navigation_unsigned(data_jk_bits, e_1_bit); e_1 = e_1 * e_1_LSB; DLOG(INFO) << "e_1= " << e_1; A_1 = (double)read_navigation_unsigned(data_jk_bits, A_1_bit); A_1 = A_1 * A_1_LSB_gal; DLOG(INFO) << "A_1= " << A_1; flag_ephemeris_1 = true; DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; case 2: /*Word type 2: Ephemeris (2/4)*/ IOD_nav_2 = (int)read_navigation_unsigned(data_jk_bits, IOD_nav_2_bit); DLOG(INFO) << "IOD_nav_2= " << IOD_nav_2; OMEGA_0_2 = (double)read_navigation_signed(data_jk_bits, OMEGA_0_2_bit); OMEGA_0_2 = OMEGA_0_2 * OMEGA_0_2_LSB; DLOG(INFO) << "OMEGA_0_2= " << OMEGA_0_2 ; i_0_2 = (double)read_navigation_signed(data_jk_bits, i_0_2_bit); i_0_2 = i_0_2 * i_0_2_LSB; DLOG(INFO) << "i_0_2= " << i_0_2 ; omega_2 = (double)read_navigation_signed(data_jk_bits, omega_2_bit); omega_2 = omega_2 * omega_2_LSB; DLOG(INFO) << "omega_2= " << omega_2; iDot_2 = (double)read_navigation_signed(data_jk_bits, iDot_2_bit); iDot_2 = iDot_2 * iDot_2_LSB; DLOG(INFO) << "iDot_2= " << iDot_2; flag_ephemeris_2 = true; DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; case 3: /*Word type 3: Ephemeris (3/4) and SISA*/ IOD_nav_3 = (int)read_navigation_unsigned(data_jk_bits, IOD_nav_3_bit); DLOG(INFO) << "IOD_nav_3= " << IOD_nav_3 ; OMEGA_dot_3 = (double)read_navigation_signed(data_jk_bits, OMEGA_dot_3_bit); OMEGA_dot_3 = OMEGA_dot_3 * OMEGA_dot_3_LSB; DLOG(INFO) <<"OMEGA_dot_3= " << OMEGA_dot_3 ; delta_n_3 = (double)read_navigation_signed(data_jk_bits, delta_n_3_bit); delta_n_3 = delta_n_3 * delta_n_3_LSB; DLOG(INFO) << "delta_n_3= " << delta_n_3 ; C_uc_3 = (double)read_navigation_signed(data_jk_bits, C_uc_3_bit); C_uc_3 = C_uc_3 * C_uc_3_LSB; DLOG(INFO) << "C_uc_3= " << C_uc_3; C_us_3 = (double)read_navigation_signed(data_jk_bits, C_us_3_bit); C_us_3 = C_us_3 * C_us_3_LSB; DLOG(INFO) << "C_us_3= " << C_us_3; C_rc_3 = (double)read_navigation_signed(data_jk_bits, C_rc_3_bit); C_rc_3 = C_rc_3 * C_rc_3_LSB; DLOG(INFO) << "C_rc_3= " << C_rc_3; C_rs_3 = (double)read_navigation_signed(data_jk_bits, C_rs_3_bit); C_rs_3 = C_rs_3 * C_rs_3_LSB; DLOG(INFO) << "C_rs_3= " << C_rs_3; SISA_3 = (double)read_navigation_unsigned(data_jk_bits, SISA_3_bit); DLOG(INFO) << "SISA_3= " << SISA_3; flag_ephemeris_3 = true; DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; case 4: /* Word type 4: Ephemeris (4/4) and Clock correction parameters*/ IOD_nav_4 = (int)read_navigation_unsigned(data_jk_bits, IOD_nav_4_bit); DLOG(INFO) << "IOD_nav_4= " << IOD_nav_4 ; SV_ID_PRN_4 = (int)read_navigation_unsigned(data_jk_bits, SV_ID_PRN_4_bit); DLOG(INFO) << "SV_ID_PRN_4= " << SV_ID_PRN_4 ; C_ic_4 = (double)read_navigation_signed(data_jk_bits, C_ic_4_bit); C_ic_4 = C_ic_4 * C_ic_4_LSB; DLOG(INFO) << "C_ic_4= " << C_ic_4; C_is_4 = (double)read_navigation_signed(data_jk_bits, C_is_4_bit); C_is_4 = C_is_4 * C_is_4_LSB; DLOG(INFO) << "C_is_4= " << C_is_4; /*Clock correction parameters*/ t0c_4 = (double)read_navigation_unsigned(data_jk_bits, t0c_4_bit); t0c_4 = t0c_4 * t0c_4_LSB; DLOG(INFO) << "t0c_4= " << t0c_4; af0_4 = (double)read_navigation_signed(data_jk_bits, af0_4_bit); af0_4 = af0_4 * af0_4_LSB; DLOG(INFO) << "af0_4 = " << af0_4; af1_4 = (double)read_navigation_signed(data_jk_bits, af1_4_bit); af1_4 = af1_4 * af1_4_LSB; DLOG(INFO) << "af1_4 = " << af1_4; af2_4 = (double)read_navigation_signed(data_jk_bits, af2_4_bit); af2_4 = af2_4 * af2_4_LSB; DLOG(INFO) << "af2_4 = " << af2_4; spare_4 = (double)read_navigation_unsigned(data_jk_bits, spare_4_bit); DLOG(INFO) << "spare_4 = " << spare_4; flag_ephemeris_4 = true; DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; case 5: /*Word type 5: Ionospheric correction, BGD, signal health and data validity status and GST*/ /*Ionospheric correction*/ /*Az*/ ai0_5 = (double)read_navigation_unsigned(data_jk_bits, ai0_5_bit); ai0_5 = ai0_5 * ai0_5_LSB; DLOG(INFO) << "ai0_5= " << ai0_5; ai1_5 = (double)read_navigation_signed(data_jk_bits, ai1_5_bit); ai1_5 = ai1_5 * ai1_5_LSB; DLOG(INFO) << "ai1_5= " << ai1_5; ai2_5 = (double)read_navigation_signed(data_jk_bits, ai2_5_bit); ai2_5 = ai2_5 * ai2_5_LSB; DLOG(INFO) << "ai2_5= " << ai2_5; /*Ionospheric disturbance flag*/ Region1_flag_5 = (bool)read_navigation_bool(data_jk_bits, Region1_5_bit); DLOG(INFO) << "Region1_flag_5= " << Region1_flag_5; Region2_flag_5 = (bool)read_navigation_bool(data_jk_bits, Region2_5_bit); DLOG(INFO) << "Region2_flag_5= " << Region2_flag_5; Region3_flag_5 = (bool)read_navigation_bool(data_jk_bits, Region3_5_bit); DLOG(INFO) << "Region3_flag_5= " << Region3_flag_5; Region4_flag_5 = (bool)read_navigation_bool(data_jk_bits, Region4_5_bit); DLOG(INFO) << "Region4_flag_5= " << Region4_flag_5; Region5_flag_5 = (bool)read_navigation_bool(data_jk_bits, Region5_5_bit); DLOG(INFO) << "Region5_flag_5= " << Region5_flag_5; BGD_E1E5a_5 = (double)read_navigation_signed(data_jk_bits, BGD_E1E5a_5_bit); BGD_E1E5a_5 = BGD_E1E5a_5 * BGD_E1E5a_5_LSB; DLOG(INFO) << "BGD_E1E5a_5= " << BGD_E1E5a_5; BGD_E1E5b_5 = (double)read_navigation_signed(data_jk_bits, BGD_E1E5b_5_bit); BGD_E1E5b_5 = BGD_E1E5b_5 * BGD_E1E5b_5_LSB; DLOG(INFO) << "BGD_E1E5b_5= " << BGD_E1E5b_5; E5b_HS_5 = (double)read_navigation_unsigned(data_jk_bits, E5b_HS_5_bit); DLOG(INFO) << "E5b_HS_5= " << E5b_HS_5; E1B_HS_5 = (double)read_navigation_unsigned(data_jk_bits, E1B_HS_5_bit); DLOG(INFO) << "E1B_HS_5= " << E1B_HS_5; E5b_DVS_5 = (double)read_navigation_unsigned(data_jk_bits, E5b_DVS_5_bit); DLOG(INFO) << "E5b_DVS_5= " << E5b_DVS_5; E1B_DVS_5 = (double)read_navigation_unsigned(data_jk_bits, E1B_DVS_5_bit); DLOG(INFO) << "E1B_DVS_5= " << E1B_DVS_5; /*GST*/ WN_5 = (double)read_navigation_unsigned(data_jk_bits, WN_5_bit); DLOG(INFO) << "WN_5= " << WN_5; TOW_5 = (double)read_navigation_unsigned(data_jk_bits, TOW_5_bit); DLOG(INFO) << "TOW_5= " << TOW_5; flag_TOW_5 = true; //set to false externally spare_5 = (double)read_navigation_unsigned(data_jk_bits, spare_5_bit); DLOG(INFO) << "spare_5= " << spare_5; flag_iono_and_GST = true; //set to false externally flag_TOW_set = true; //set to false externally DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; case 6: /*Word type 6: GST-UTC conversion parameters*/ A0_6 = (double)read_navigation_signed(data_jk_bits, A0_6_bit); A0_6 = A0_6 * A0_6_LSB; DLOG(INFO) << "A0_6= " << A0_6; A1_6 = (double)read_navigation_signed(data_jk_bits, A1_6_bit); A1_6 = A1_6 * A1_6_LSB; DLOG(INFO) << "A1_6= " << A1_6; Delta_tLS_6 = (double)read_navigation_signed(data_jk_bits, Delta_tLS_6_bit); DLOG(INFO) << "Delta_tLS_6= " << Delta_tLS_6; t0t_6 = (double)read_navigation_unsigned(data_jk_bits, t0t_6_bit); t0t_6 = t0t_6 * t0t_6_LSB; DLOG(INFO) << "t0t_6= " << t0t_6; WNot_6 = (double)read_navigation_unsigned(data_jk_bits, WNot_6_bit); DLOG(INFO) << "WNot_6= " << WNot_6; WN_LSF_6 = (double)read_navigation_unsigned(data_jk_bits, WN_LSF_6_bit); DLOG(INFO) << "WN_LSF_6= " << WN_LSF_6; DN_6 = (double)read_navigation_unsigned(data_jk_bits, DN_6_bit); DLOG(INFO) << "DN_6= " << DN_6; Delta_tLSF_6 = (double)read_navigation_signed(data_jk_bits, Delta_tLSF_6_bit); DLOG(INFO) << "Delta_tLSF_6= " << Delta_tLSF_6; TOW_6 = (double)read_navigation_unsigned(data_jk_bits, TOW_6_bit); DLOG(INFO) << "TOW_6= " << TOW_6; flag_TOW_6 = true; //set to false externally flag_utc_model = true; //set to false externally flag_TOW_set = true; //set to false externally DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; case 7: /*Word type 7: Almanac for SVID1 (1/2), almanac reference time and almanac reference week number*/ IOD_a_7 = (double)read_navigation_unsigned(data_jk_bits, IOD_a_7_bit); DLOG(INFO) << "IOD_a_7= " << IOD_a_7; WN_a_7 = (double)read_navigation_unsigned(data_jk_bits, WN_a_7_bit); DLOG(INFO) << "WN_a_7= " << WN_a_7; t0a_7 = (double)read_navigation_unsigned(data_jk_bits, t0a_7_bit); t0a_7 = t0a_7 * t0a_7_LSB; DLOG(INFO) << "t0a_7= " << t0a_7; SVID1_7 = (double)read_navigation_unsigned(data_jk_bits, SVID1_7_bit); DLOG(INFO) << "SVID1_7= " << SVID1_7; DELTA_A_7 = (double)read_navigation_signed(data_jk_bits, DELTA_A_7_bit); DELTA_A_7 = DELTA_A_7 * DELTA_A_7_LSB; DLOG(INFO) << "DELTA_A_7= " << DELTA_A_7; e_7 = (double)read_navigation_unsigned(data_jk_bits, e_7_bit); e_7 = e_7 * e_7_LSB; DLOG(INFO) << "e_7= " << e_7; omega_7 = (double)read_navigation_signed(data_jk_bits, omega_7_bit); omega_7 = omega_7 * omega_7_LSB; DLOG(INFO) << "omega_7= " << omega_7; delta_i_7 = (double)read_navigation_signed(data_jk_bits, delta_i_7_bit); delta_i_7 = delta_i_7 * delta_i_7_LSB; DLOG(INFO) << "delta_i_7= " << delta_i_7; Omega0_7 = (double)read_navigation_signed(data_jk_bits, Omega0_7_bit); Omega0_7 = Omega0_7 * Omega0_7_LSB; DLOG(INFO) << "Omega0_7= " << Omega0_7; Omega_dot_7 = (double)read_navigation_signed(data_jk_bits, Omega_dot_7_bit); Omega_dot_7 = Omega_dot_7 * Omega_dot_7_LSB; DLOG(INFO) << "Omega_dot_7= " << Omega_dot_7; M0_7 = (double)read_navigation_signed(data_jk_bits, M0_7_bit); M0_7 = M0_7 * M0_7_LSB; DLOG(INFO) << "M0_7= " << M0_7; flag_almanac_1 = true; DLOG(INFO) << "flag_tow_set"<< flag_TOW_set; break; case 8: /*Word type 8: Almanac for SVID1 (2/2) and SVID2 (1/2)*/ IOD_a_8 = (double)read_navigation_signed(data_jk_bits, IOD_a_8_bit); DLOG(INFO) << "IOD_a_8= " << IOD_a_8; af0_8 = (double)read_navigation_signed(data_jk_bits, af0_8_bit); af0_8 = af0_8 * af0_8_LSB; DLOG(INFO) << "af0_8= " << af0_8; af1_8 = (double)read_navigation_signed(data_jk_bits, af1_8_bit); af1_8 = af1_8 * af1_8_LSB; DLOG(INFO) << "af1_8= " << af1_8; E5b_HS_8 = (double)read_navigation_unsigned(data_jk_bits, E5b_HS_8_bit); DLOG(INFO) << "E5b_HS_8= " << E5b_HS_8; E1B_HS_8 = (double)read_navigation_unsigned(data_jk_bits, E1B_HS_8_bit); DLOG(INFO) << "E1B_HS_8= " << E1B_HS_8; SVID2_8 = (double)read_navigation_unsigned(data_jk_bits, SVID2_8_bit); DLOG(INFO) << "SVID2_8= " << SVID2_8; DELTA_A_8 = (double)read_navigation_signed(data_jk_bits, DELTA_A_8_bit); DELTA_A_8 = DELTA_A_8 * DELTA_A_8_LSB; DLOG(INFO) << "DELTA_A_8= " << DELTA_A_8; e_8 = (double)read_navigation_unsigned(data_jk_bits, e_8_bit); e_8 = e_8 * e_8_LSB; DLOG(INFO) << "e_8= " << e_8; omega_8 = (double)read_navigation_signed(data_jk_bits, omega_8_bit); omega_8 = omega_8 * omega_8_LSB; DLOG(INFO) << "omega_8= " << omega_8; delta_i_8 = (double)read_navigation_signed(data_jk_bits, delta_i_8_bit); delta_i_8 = delta_i_8 * delta_i_8_LSB; DLOG(INFO) << "delta_i_8= " << delta_i_8; Omega0_8 = (double)read_navigation_signed(data_jk_bits, Omega0_8_bit); Omega0_8 = Omega0_8 * Omega0_8_LSB; DLOG(INFO) << "Omega0_8= " << Omega0_8; Omega_dot_8 = (double)read_navigation_signed(data_jk_bits, Omega_dot_8_bit); Omega_dot_8 = Omega_dot_8 * Omega_dot_8_LSB; DLOG(INFO) << "Omega_dot_8= " << Omega_dot_8; flag_almanac_2 = true; DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; case 9: /*Word type 9: Almanac for SVID2 (2/2) and SVID3 (1/2)*/ IOD_a_9 = (double)read_navigation_unsigned(data_jk_bits, IOD_a_9_bit); DLOG(INFO) << "IOD_a_9= " << IOD_a_9; WN_a_9 = (double)read_navigation_unsigned(data_jk_bits, WN_a_9_bit); DLOG(INFO) << "WN_a_9= " << WN_a_9; t0a_9 = (double)read_navigation_unsigned(data_jk_bits, t0a_9_bit); t0a_9 = t0a_9 * t0a_9_LSB; DLOG(INFO) << "t0a_9= " << t0a_9; M0_9 = (double)read_navigation_signed(data_jk_bits, M0_9_bit); M0_9 = M0_9 * M0_9_LSB; DLOG(INFO) << "M0_9= " << M0_9; af0_9 = (double)read_navigation_signed(data_jk_bits, af0_9_bit); af0_9 = af0_9 * af0_9_LSB; DLOG(INFO) << "af0_9= " << af0_9; af1_9 = (double)read_navigation_signed(data_jk_bits, af1_9_bit); af1_9 = af1_9 * af1_9_LSB; DLOG(INFO) << "af1_9= " << af1_9; E1B_HS_9 = (double)read_navigation_unsigned(data_jk_bits, E1B_HS_9_bit); DLOG(INFO) << "E1B_HS_9= " << E1B_HS_9; E1B_HS_9 = (double)read_navigation_unsigned(data_jk_bits, E1B_HS_9_bit); DLOG(INFO) << "E1B_HS_9= " << E1B_HS_9; SVID3_9 = (double)read_navigation_unsigned(data_jk_bits,SVID3_9_bit); DLOG(INFO) << "SVID3_9= " << SVID3_9; DELTA_A_9 = (double)read_navigation_signed(data_jk_bits, DELTA_A_9_bit); DELTA_A_9 = DELTA_A_9 * DELTA_A_9_LSB; DLOG(INFO) << "DELTA_A_9= " << DELTA_A_9; e_9 = (double)read_navigation_unsigned(data_jk_bits, e_9_bit); e_9 = e_9 * e_9_LSB; DLOG(INFO) << "e_9= " << e_9; omega_9 = (double)read_navigation_signed(data_jk_bits, omega_9_bit); omega_9 = omega_9 * omega_9_LSB; DLOG(INFO) << "omega_9= " << omega_9; delta_i_9 = (double)read_navigation_signed(data_jk_bits, delta_i_9_bit); delta_i_9 = delta_i_9 * delta_i_9_LSB; DLOG(INFO) << "delta_i_9= " << delta_i_9; flag_almanac_3 = true; DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; case 10: /*Word type 10: Almanac for SVID3 (2/2) and GST-GPS conversion parameters*/ IOD_a_10 = (double)read_navigation_unsigned(data_jk_bits, IOD_a_10_bit); DLOG(INFO) << "IOD_a_10= " << IOD_a_10; Omega0_10 = (double)read_navigation_signed(data_jk_bits, Omega0_10_bit); Omega0_10 = Omega0_10 * Omega0_10_LSB; DLOG(INFO) << "Omega0_10= " << Omega0_10; Omega_dot_10 = (double)read_navigation_signed(data_jk_bits, Omega_dot_10_bit); Omega_dot_10 = Omega_dot_10 * Omega_dot_10_LSB; DLOG(INFO) << "Omega_dot_10= " << Omega_dot_10 ; M0_10 = (double)read_navigation_signed(data_jk_bits, M0_10_bit); M0_10 = M0_10 * M0_10_LSB; DLOG(INFO) << "M0_10= " << M0_10; af0_10 = (double)read_navigation_signed(data_jk_bits, af0_10_bit); af0_10 = af0_10 * af0_10_LSB; DLOG(INFO) << "af0_10= " << af0_10; af1_10 = (double)read_navigation_signed(data_jk_bits, af1_10_bit); af1_10 = af1_10 * af1_10_LSB; DLOG(INFO) << "af1_10= " << af1_10; E5b_HS_10 = (double)read_navigation_unsigned(data_jk_bits, E5b_HS_10_bit); DLOG(INFO) << "E5b_HS_10= " << E5b_HS_10; E1B_HS_10 = (double)read_navigation_unsigned(data_jk_bits, E1B_HS_10_bit); DLOG(INFO) << "E1B_HS_10= " << E1B_HS_10; A_0G_10 = (double)read_navigation_signed(data_jk_bits, A_0G_10_bit); A_0G_10 = A_0G_10 * A_0G_10_LSB; flag_GGTO_1=true; DLOG(INFO) << "A_0G_10= " << A_0G_10; A_1G_10 = (double)read_navigation_signed(data_jk_bits, A_1G_10_bit); A_1G_10 = A_1G_10 * A_1G_10_LSB; flag_GGTO_2=true; DLOG(INFO) << "A_1G_10= " << A_1G_10; t_0G_10 = (double)read_navigation_unsigned(data_jk_bits, t_0G_10_bit); t_0G_10 = t_0G_10 * t_0G_10_LSB; flag_GGTO_3=true; DLOG(INFO) << "t_0G_10= " << t_0G_10; WN_0G_10 = (double)read_navigation_unsigned(data_jk_bits, WN_0G_10_bit); flag_GGTO_4=true; DLOG(INFO) << "WN_0G_10= " << WN_0G_10; flag_almanac_4 = true; DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; case 0: /*Word type 0: I/NAV Spare Word*/ Time_0 = (double)read_navigation_unsigned(data_jk_bits, Time_0_bit); DLOG(INFO) << "Time_0= " << Time_0; WN_0 = (double)read_navigation_unsigned(data_jk_bits, WN_0_bit); DLOG(INFO) << "WN_0= " << WN_0; TOW_0 = (double)read_navigation_unsigned(data_jk_bits, TOW_0_bit); DLOG(INFO) << "TOW_0= " << TOW_0; DLOG(INFO) << "flag_tow_set" << flag_TOW_set; break; } return page_number; }