2017-07-23 07:20:32 -04:00
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/*
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* Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc.
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* Copyright (C) 2016 Furrtek
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*
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* This file is part of PortaPack.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2, or (at your option)
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* any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; see the file COPYING. If not, write to
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* the Free Software Foundation, Inc., 51 Franklin Street,
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* Boston, MA 02110-1301, USA.
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*/
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#include "adsb.hpp"
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2017-07-25 03:30:12 -04:00
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#include "sine_table.hpp"
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2017-07-23 07:20:32 -04:00
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#include <math.h>
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namespace adsb {
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2017-07-25 03:30:12 -04:00
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void make_frame_adsb(ADSBFrame& frame, const uint32_t ICAO_address) {
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2017-07-23 07:20:32 -04:00
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frame.clear();
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2017-07-25 03:30:12 -04:00
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frame.push_byte((DF_ADSB << 3) | 5); // DF and CA
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2017-07-23 07:20:32 -04:00
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frame.push_byte(ICAO_address >> 16);
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frame.push_byte(ICAO_address >> 8);
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frame.push_byte(ICAO_address & 0xFF);
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}
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2017-07-25 03:30:12 -04:00
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void encode_frame_id(ADSBFrame& frame, const uint32_t ICAO_address, const std::string& callsign) {
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std::string callsign_formatted(8, '_');
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uint64_t callsign_coded = 0;
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uint32_t c, s;
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char ch;
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2017-07-25 03:30:12 -04:00
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make_frame_adsb(frame, ICAO_address);
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2017-07-23 07:20:32 -04:00
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2017-07-25 03:30:12 -04:00
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frame.push_byte(TC_IDENT << 3); // No aircraft category
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2017-07-23 07:20:32 -04:00
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// Translate and encode callsign
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for (c = 0; c < 8; c++) {
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ch = callsign[c];
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for (s = 0; s < 64; s++)
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if (ch == icao_id_lut[s]) break;
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if (s == 64) {
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ch = ' '; // Invalid character
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s = 32;
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}
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callsign_coded <<= 6;
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callsign_coded |= s;
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//callsign[c] = ch;
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}
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// Insert callsign in frame
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for (c = 0; c < 6; c++)
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frame.push_byte((callsign_coded >> ((5 - c) * 8)) & 0xFF);
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frame.make_CRC();
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}
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2017-08-16 05:02:57 -04:00
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std::string decode_frame_id(ADSBFrame& frame) {
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std::string callsign = "";
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uint8_t * raw_data = frame.get_raw_data();
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uint64_t callsign_coded = 0;
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uint32_t c;
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// Frame bytes to long
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for (c = 5; c < 11; c++) {
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callsign_coded <<= 8;
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callsign_coded |= raw_data[c];
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}
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// Long to 6-bit characters
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for (c = 0; c < 8; c++) {
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callsign.append(1, icao_id_lut[(callsign_coded >> 42) & 0x3F]);
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callsign_coded <<= 6;
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}
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return callsign;
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}
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2017-07-23 07:20:32 -04:00
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/*void generate_frame_emergency(ADSBFrame& frame, const uint32_t ICAO_address, const uint8_t code) {
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make_frame_mode_s(frame, ICAO_address);
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frame.push_byte((28 << 3) + 1); // TC = 28 (Emergency), subtype = 1 (Emergency)
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frame.push_byte(code << 5);
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frame.make_CRC();
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}*/
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2017-07-25 03:30:12 -04:00
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void encode_frame_squawk(ADSBFrame& frame, const uint32_t squawk) {
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uint32_t squawk_coded;
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2017-07-23 07:20:32 -04:00
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frame.clear();
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2017-07-25 03:30:12 -04:00
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frame.push_byte(DF_EHS_SQUAWK << 3); // DF
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frame.push_byte(0);
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2017-07-25 03:30:12 -04:00
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// 12 11 10 9 8 7 6 5 4 3 2 1 0
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// 31 30 29 28 27 26 25 24 23 22 21 20 19
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// D4 B4 D2 B2 D1 B1 __ A4 C4 A2 C2 A1 C1
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// ABCD = code (octal, 0000~7777)
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// FEDCBA9876543210
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// xAAAxBBBxCCCxDDD
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// x421x421x421x421
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squawk_coded = ((squawk << 10) & 0x1000) | // D4
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((squawk << 1) & 0x0800) | // B4
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((squawk << 9) & 0x0400) | // D2
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((squawk << 0) & 0x0200) | // B2
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((squawk << 8) & 0x0100) | // D1
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((squawk >> 1) & 0x0080) | // B1
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((squawk >> 9) & 0x0020) | // A4
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((squawk >> 2) & 0x0010) | // C4
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((squawk >> 10) & 0x0008) | // A2
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((squawk >> 3) & 0x0004) | // C2
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((squawk >> 11) & 0x0002) | // A1
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((squawk >> 4) & 0x0001); // C1
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frame.push_byte(squawk_coded >> 5);
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frame.push_byte(squawk_coded << 3);
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frame.make_CRC();
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}
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float cpr_mod(float a, float b) {
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return a - (b * floor(a / b));
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}
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2021-06-19 18:41:06 -04:00
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int cpr_NL_precise(float lat) {
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return (int) floor(2 * PI / acos(1 - ((1 - cos(PI / (2 * NZ))) / pow(cos(PI * lat / 180), 2))));
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}
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int cpr_NL_approx(float lat) {
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if (lat < 0)
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lat = -lat; // Symmetry
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for (size_t c = 0; c < 58; c++) {
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if (lat < adsb_lat_lut[c])
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return 59 - c;
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}
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2021-06-19 18:41:06 -04:00
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return 1;
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}
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int cpr_NL(float lat) {
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return cpr_NL_precise(lat);
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}
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int cpr_N(float lat, int is_odd) {
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int nl = cpr_NL(lat) - is_odd;
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if (nl < 1)
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nl = 1;
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return nl;
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}
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2017-08-17 07:56:47 -04:00
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float cpr_Dlon(float lat, int is_odd) {
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return 360.0 / cpr_N(lat, is_odd);
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}
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2017-08-03 14:06:59 -04:00
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void encode_frame_pos(ADSBFrame& frame, const uint32_t ICAO_address, const int32_t altitude,
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const float latitude, const float longitude, const uint32_t time_parity) {
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2017-07-23 07:20:32 -04:00
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uint32_t altitude_coded;
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uint32_t lat, lon;
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float delta_lat, yz, rlat, delta_lon, xz;
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2017-07-25 03:30:12 -04:00
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make_frame_adsb(frame, ICAO_address);
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2017-07-25 03:30:12 -04:00
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frame.push_byte(TC_AIRBORNE_POS << 3); // Bits 2~1: Surveillance Status, bit 0: NICsb
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2017-07-25 03:30:12 -04:00
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altitude_coded = (altitude + 1000) / 25; // 25ft precision, insert Q-bit (1)
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altitude_coded = ((altitude_coded & 0x7F0) << 1) | 0x10 | (altitude_coded & 0x0F);
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2017-07-25 03:30:12 -04:00
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frame.push_byte(altitude_coded >> 4); // Top-most altitude bits
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// CPR encoding
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// Info from: http://antena.fe.uni-lj.si/literatura/Razno/Avionika/modes/CPRencoding.pdf
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delta_lat = 360.0 / ((4.0 * 15.0) - time_parity); // NZ = 15
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yz = floor(131072.0 * (cpr_mod(latitude, delta_lat) / delta_lat) + 0.5);
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rlat = delta_lat * ((yz / 131072.0) + floor(latitude / delta_lat));
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if ((cpr_NL(rlat) - time_parity) > 0)
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delta_lon = 360.0 / cpr_N(rlat, time_parity);
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else
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delta_lon = 360.0;
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xz = floor(131072.0 * (cpr_mod(longitude, delta_lon) / delta_lon) + 0.5);
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lat = cpr_mod(yz, 131072.0);
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lon = cpr_mod(xz, 131072.0);
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2017-07-25 03:30:12 -04:00
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frame.push_byte((altitude_coded << 4) | ((uint32_t)time_parity << 2) | (lat >> 15)); // T = 0
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2017-07-23 07:20:32 -04:00
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frame.push_byte(lat >> 7);
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frame.push_byte((lat << 1) | (lon >> 16));
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frame.push_byte(lon >> 8);
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frame.push_byte(lon);
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frame.make_CRC();
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}
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2017-08-17 07:56:47 -04:00
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// Decoding method from dump1090
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adsb_pos decode_frame_pos(ADSBFrame& frame_even, ADSBFrame& frame_odd) {
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uint8_t * raw_data;
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uint32_t latcprE, latcprO, loncprE, loncprO;
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2019-05-21 11:44:14 -04:00
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float latE, latO, m, Dlon, cpr_lon_odd, cpr_lon_even, cpr_lat_odd, cpr_lat_even;
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int ni;
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adsb_pos position { false, 0, 0, 0 };
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uint32_t time_even = frame_even.get_rx_timestamp();
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uint32_t time_odd = frame_odd.get_rx_timestamp();
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uint8_t * frame_data_even = frame_even.get_raw_data();
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uint8_t * frame_data_odd = frame_odd.get_raw_data();
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// Return most recent altitude
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if (time_even > time_odd)
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raw_data = frame_data_even;
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else
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raw_data = frame_data_odd;
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// Q-bit must be present
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if (raw_data[5] & 1)
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position.altitude = ((((raw_data[5] & 0xFE) << 3) | ((raw_data[6] & 0xF0) >> 4)) * 25) - 1000;
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// Position
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latcprE = ((frame_data_even[6] & 3) << 15) | (frame_data_even[7] << 7) | (frame_data_even[8] >> 1);
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loncprE = ((frame_data_even[8] & 1) << 16) | (frame_data_even[9] << 8) | frame_data_even[10];
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2017-08-16 05:02:57 -04:00
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2017-08-17 07:56:47 -04:00
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latcprO = ((frame_data_odd[6] & 3) << 15) | (frame_data_odd[7] << 7) | (frame_data_odd[8] >> 1);
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loncprO = ((frame_data_odd[8] & 1) << 16) | (frame_data_odd[9] << 8) | frame_data_odd[10];
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2019-05-21 11:44:14 -04:00
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// Calculate the coefficients
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cpr_lon_even = loncprE / CPR_MAX_VALUE;
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cpr_lon_odd = loncprO / CPR_MAX_VALUE;
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cpr_lat_odd = latcprO / CPR_MAX_VALUE;
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cpr_lat_even = latcprE / CPR_MAX_VALUE;
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2017-08-17 07:56:47 -04:00
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// Compute latitude index
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2019-05-21 11:44:14 -04:00
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float j = floor(((59.0 * cpr_lat_even) - (60.0 * cpr_lat_odd)) + 0.5);
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latE = (360.0 / 60.0) * (cpr_mod(j, 60) + cpr_lat_even);
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latO = (360.0 / 59.0) * (cpr_mod(j, 59) + cpr_lat_odd);
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2017-08-17 07:56:47 -04:00
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if (latE >= 270) latE -= 360;
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if (latO >= 270) latO -= 360;
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// Both frames must be in the same latitude zone
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if (cpr_NL(latE) != cpr_NL(latO))
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return position;
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// Compute longitude
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if (time_even > time_odd) {
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2021-06-19 18:41:06 -04:00
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// Use even frame2
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2017-08-17 07:56:47 -04:00
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ni = cpr_N(latE, 0);
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Dlon = 360.0 / ni;
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2019-05-21 11:44:14 -04:00
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m = floor((cpr_lon_even * (cpr_NL(latE) - 1)) - (cpr_lon_odd * cpr_NL(latE)) + 0.5);
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2017-08-17 07:56:47 -04:00
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2019-05-21 11:44:14 -04:00
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position.longitude = Dlon * (cpr_mod(m, ni) + cpr_lon_even);
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2017-08-17 07:56:47 -04:00
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position.latitude = latE;
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} else {
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// Use odd frame
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ni = cpr_N(latO, 1);
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Dlon = 360.0 / ni;
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2019-05-21 11:44:14 -04:00
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m = floor((cpr_lon_even * (cpr_NL(latO) - 1)) - (cpr_lon_odd * cpr_NL(latO)) + 0.5);
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2017-08-17 07:56:47 -04:00
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2019-05-21 11:44:14 -04:00
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position.longitude = Dlon * (cpr_mod(m, ni) + cpr_lon_odd);
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2017-08-17 07:56:47 -04:00
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position.latitude = latO;
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}
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2017-08-16 05:02:57 -04:00
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2021-06-19 18:41:06 -04:00
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if (position.longitude >= 180) position.longitude -= 360;
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2017-08-17 07:56:47 -04:00
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position.valid = true;
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return position;
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2017-08-16 05:02:57 -04:00
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}
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2017-07-25 03:30:12 -04:00
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// speed is in knots
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// vertical rate is in ft/min
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void encode_frame_velo(ADSBFrame& frame, const uint32_t ICAO_address, const uint32_t speed,
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const float angle, const int32_t v_rate) {
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int32_t velo_ew, velo_ns, v_rate_coded;
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uint32_t velo_ew_abs, velo_ns_abs, v_rate_coded_abs;
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// To get NS and EW speeds from speed and bearing, a polar to cartesian conversion is enough
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velo_ew = static_cast<int32_t>(sin_f32(DEG_TO_RAD(angle) + (pi / 2)) * speed);
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velo_ns = static_cast<int32_t>(sin_f32(DEG_TO_RAD(angle)) * speed);
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v_rate_coded = (v_rate / 64) + 1;
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2020-07-24 17:09:21 -04:00
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velo_ew_abs = abs(velo_ew) + 1;
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velo_ns_abs = abs(velo_ns) + 1;
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2017-07-25 03:30:12 -04:00
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v_rate_coded_abs = abs(v_rate_coded);
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make_frame_adsb(frame, ICAO_address);
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frame.push_byte((TC_AIRBORNE_VELO << 3) | 1); // Subtype: 1 (subsonic)
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frame.push_byte(((velo_ew < 0 ? 1 : 0) << 2) | (velo_ew_abs >> 8));
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frame.push_byte(velo_ew_abs);
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frame.push_byte(((velo_ns < 0 ? 1 : 0) << 7) | (velo_ns_abs >> 3));
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frame.push_byte((velo_ns_abs << 5) | ((v_rate_coded < 0 ? 1 : 0) << 3) | (v_rate_coded_abs >> 6)); // VrSrc = 0
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frame.push_byte(v_rate_coded_abs << 2);
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frame.push_byte(0);
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frame.make_CRC();
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}
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2020-07-24 17:09:21 -04:00
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// Decoding method from dump1090
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adsb_vel decode_frame_velo(ADSBFrame& frame){
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2021-01-27 09:38:05 -05:00
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adsb_vel velo {false, 0, 0, 0};
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2020-07-24 17:09:21 -04:00
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uint8_t * frame_data = frame.get_raw_data();
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uint8_t velo_type = frame.get_msg_sub();
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if(velo_type >= 1 && velo_type <= 4){ //vertical rate is always present
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2021-01-27 09:38:05 -05:00
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velo.v_rate = (((frame_data[8] & 0x07 ) << 6) | ((frame_data[9] >> 2) - 1)) * 64;
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2020-07-24 17:09:21 -04:00
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if((frame_data[8] & 0x8) >> 3) velo.v_rate *= -1; //check v_rate sign
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}
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if(velo_type == 1 || velo_type == 2){ //Ground Speed
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2020-08-10 23:55:20 -04:00
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int32_t raw_ew = ((frame_data[5] & 0x03) << 8) | frame_data[6];
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int32_t velo_ew = raw_ew - 1; //velocities are all offset by one (this is part of the spec)
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int32_t raw_ns = ((frame_data[7] & 0x7f) << 3) | (frame_data[8] >> 5);
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int32_t velo_ns = raw_ns - 1;
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2020-07-24 17:09:21 -04:00
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if (velo_type == 2){ // supersonic indicator so multiply by 4
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velo_ew = velo_ew << 2;
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velo_ns = velo_ns << 2;
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}
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2020-08-10 23:55:20 -04:00
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if(frame_data[5]&0x04) velo_ew *= -1; //check ew direction sign
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if(frame_data[7]&0x80) velo_ns *= -1; //check ns direction sign
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2020-07-24 17:09:21 -04:00
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velo.speed = sqrt(velo_ns*velo_ns + velo_ew*velo_ew);
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2020-07-25 11:21:56 -04:00
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2020-07-24 17:09:21 -04:00
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if(velo.speed){
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//calculate heading in degrees from ew/ns velocities
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2020-07-25 11:21:56 -04:00
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int16_t heading_temp = (int16_t)(atan2(velo_ew,velo_ns) * 180.0 / pi);
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2020-07-24 17:09:21 -04:00
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// We don't want negative values but a 0-360 scale.
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2020-07-25 11:21:56 -04:00
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if (heading_temp < 0) heading_temp += 360.0;
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velo.heading = (uint16_t)heading_temp;
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2020-07-24 17:09:21 -04:00
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}
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}else if(velo_type == 3 || velo_type == 4){ //Airspeed
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velo.valid = frame_data[5] & (1<<2);
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velo.heading = ((((frame_data[5] & 0x03)<<8) | frame_data[6]) * 45) << 7;
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}
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return velo;
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}
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2017-07-23 07:20:32 -04:00
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} /* namespace adsb */
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