source: ntrip/trunk/BNC/src/upload/bncrtnetuploadcaster.cpp@ 10590

Last change on this file since 10590 was 10548, checked in by stuerze, 3 months ago

replacement of obsolete qt-class members

File size: 46.1 KB
RevLine 
[3222]1/* -------------------------------------------------------------------------
2 * BKG NTRIP Server
3 * -------------------------------------------------------------------------
4 *
[3224]5 * Class: bncRtnetUploadCaster
[3222]6 *
7 * Purpose: Connection to NTRIP Caster
8 *
9 * Author: L. Mervart
10 *
11 * Created: 29-Mar-2011
12 *
[5662]13 * Changes:
[3222]14 *
15 * -----------------------------------------------------------------------*/
16
17#include <math.h>
[5662]18#include "bncrtnetuploadcaster.h"
[3222]19#include "bncsettings.h"
[3224]20#include "bncephuser.h"
[3222]21#include "bncclockrinex.h"
[9652]22#include "bncbiassinex.h"
[3222]23#include "bncsp3.h"
[6812]24#include "gnss.h"
[9245]25#include "bncutils.h"
[3222]26
27using namespace std;
28
29// Constructor
30////////////////////////////////////////////////////////////////////////////
[3224]31bncRtnetUploadCaster::bncRtnetUploadCaster(const QString& mountpoint,
[8275]32 const QString& outHost, int outPort,
33 const QString& ntripVersion,
34 const QString& userName, const QString& password,
[9025]35 const QString& crdTrafo, const QString& ssrFormat, bool CoM, const QString& sp3FileName,
[9652]36 const QString& rnxFileName, const QString& bsxFileName, int PID, int SID, int IOD, int iRow) :
[8275]37 bncUploadCaster(mountpoint, outHost, outPort, ntripVersion, userName, password, iRow, 0) {
[3224]38
[8361]39 if (!mountpoint.isEmpty()) {
40 _casterID += mountpoint;
41 }
[5130]42 if (!outHost.isEmpty()) {
[8361]43 _casterID += " " + outHost;
44 if (outPort) {
45 _casterID += ":" + QString("%1").arg(outPort, 10);
46 }
[5130]47 }
48 if (!crdTrafo.isEmpty()) {
49 _casterID += " " + crdTrafo;
50 }
51 if (!sp3FileName.isEmpty()) {
52 _casterID += " " + sp3FileName;
53 }
54 if (!rnxFileName.isEmpty()) {
55 _casterID += " " + rnxFileName;
56 }
57
[9652]58 if (!bsxFileName.isEmpty()) {
59 _casterID += " " + bsxFileName;
60 }
61
[10533]62 _crdTrafoStr = crdTrafo;
[9025]63
[9034]64 _ssrFormat = ssrFormat;
[9128]65
[9025]66 _ssrCorr = 0;
[9033]67 if (_ssrFormat == "IGS-SSR") {
[9025]68 _ssrCorr = new SsrCorrIgs();
69 }
[9033]70 else if (_ssrFormat == "RTCM-SSR") {
[9025]71 _ssrCorr = new SsrCorrRtcm();
72 }
[9033]73
[6877]74 _CoM = CoM;
75 _PID = PID;
76 _SID = SID;
77 _IOD = IOD;
[10124]78 _phaseBiasInformationDecoded = false;
[3222]79
[3224]80 // Member that receives the ephemeris
81 // ----------------------------------
[6441]82 _ephUser = new bncEphUser(true);
[3222]83
[3272]84 bncSettings settings;
[6877]85 QString intr = settings.value("uploadIntr").toString();
[7297]86 QStringList hlp = settings.value("cmbStreams").toStringList();
[6559]87 _samplRtcmEphCorr = settings.value("uploadSamplRtcmEphCorr").toDouble();
88 if (hlp.size() > 1) { // combination stream upload
[6877]89 _samplRtcmClkCorr = settings.value("cmbSampl").toInt();
[6557]90 }
[6877]91 else { // single stream upload or sp3 file generation
92 _samplRtcmClkCorr = 5; // default
93 }
[10543]94 _samplRtcmVtec = 60.0;
95 _samplRtcmCrs = 60.0;
[6877]96 int samplClkRnx = settings.value("uploadSamplClkRnx").toInt();
[10095]97 int samplSp3 = settings.value("uploadSamplSp3").toString().split("sec").first().toInt();
[9652]98 int samplBiaSnx = settings.value("uploadSamplBiaSnx").toInt();
[4174]99
100 if (_samplRtcmEphCorr == 0.0) {
[3753]101 _usedEph = 0;
102 }
103 else {
[6442]104 _usedEph = new QMap<QString, const t_eph*>;
[3753]105 }
[3272]106
[3222]107 // RINEX writer
108 // ------------
109 if (!rnxFileName.isEmpty()) {
[4174]110 _rnx = new bncClockRinex(rnxFileName, intr, samplClkRnx);
[3222]111 }
112 else {
113 _rnx = 0;
114 }
115
116 // SP3 writer
117 // ----------
118 if (!sp3FileName.isEmpty()) {
[4174]119 _sp3 = new bncSP3(sp3FileName, intr, samplSp3);
[3222]120 }
121 else {
122 _sp3 = 0;
123 }
124
[9652]125 // SINEX writer
126 // ------------
127 if (!bsxFileName.isEmpty()) {
128 _bsx = new bncBiasSinex(bsxFileName, intr, samplBiaSnx);
129 }
130 else {
131 _bsx = 0;
132 }
133
134
[3222]135 // Set Transformation Parameters
136 // -----------------------------
[8405]137 // Transformation Parameters from ITRF2014 to ETRF2000
[10414]138 // http://etrs89.ign.fr/pub/EUREF-TN-1-Mar-04-2024.pdf
[10533]139 if (_crdTrafoStr == "ETRF2000") {
[10414]140 _dx = 0.0552;
141 _dy = 0.0527;
142 _dz = -0.0836;
[8720]143
[8094]144 _dxr = 0.0001;
145 _dyr = 0.0001;
[8405]146 _dzr = -0.0019;
[8720]147
[10414]148 _ox = 0.002106;
149 _oy = 0.012740;
150 _oz = -0.020592;
[8720]151
152 _oxr = 0.000081;
153 _oyr = 0.000490;
[10416]154 _ozr = -0.000792;
[8720]155
[10414]156 _sc = 2.67;
[8405]157 _scr = 0.11;
[8720]158
[10414]159 _t0 = 2015.0;
[3222]160 }
[8094]161 // Transformation Parameters from ITRF2014 to GDA2020 (Ryan Ruddick, GA)
[10533]162 else if (_crdTrafoStr == "GDA2020") {
[8094]163 _dx = 0.0;
164 _dy = 0.0;
165 _dz = 0.0;
[8720]166
[8094]167 _dxr = 0.0;
168 _dyr = 0.0;
169 _dzr = 0.0;
[8720]170
[8094]171 _ox = 0.0;
172 _oy = 0.0;
173 _oz = 0.0;
[8720]174
[8094]175 _oxr = 0.00150379;
176 _oyr = 0.00118346;
177 _ozr = 0.00120716;
[8720]178
[8094]179 _sc = 0.0;
180 _scr = 0.0;
[8720]181
[8094]182 _t0 = 2020.0;
[3222]183 }
[8962]184 // Transformation Parameters from IGb14 to SIRGAS2000 (Thanks to Sonia Costa, BRA)
185 // June 29 2020: TX:-0.0027 m TY:-0.0025 m TZ:-0.0042 m SCL:1.20 (ppb) no rotations and no rates.*/
[10533]186 else if (_crdTrafoStr == "SIRGAS2000") {
[8962]187 _dx = -0.0027;
188 _dy = -0.0025;
189 _dz = -0.0042;
[8720]190
[9917]191 _dxr = 0.0;
192 _dyr = 0.0;
193 _dzr = 0.0;
[8720]194
[9917]195 _ox = 0.0;
196 _oy = 0.0;
197 _oz = 0.0;
[8720]198
[9917]199 _oxr = 0.0;
200 _oyr = 0.0;
201 _ozr = 0.0;
[8720]202
[9917]203 _sc = 1.2;
204 _scr = 0.0;
[8720]205 _t0 = 2000.0;
[3222]206 }
[8405]207 // Transformation Parameters from ITRF2014 to DREF91
[10533]208 else if (_crdTrafoStr == "DREF91") {
[8720]209 _dx = 0.0547;
210 _dy = 0.0522;
211 _dz = -0.0741;
212
[8094]213 _dxr = 0.0001;
214 _dyr = 0.0001;
[8405]215 _dzr = -0.0019;
[9917]216 // ERTF200 + rotation parameters (ETRF2000 => DREF91)
[8720]217 _ox = 0.001701 + 0.000658;
218 _oy = 0.010290 - 0.000208;
219 _oz = -0.016632 + 0.000755;
220
221 _oxr = 0.000081;
222 _oyr = 0.000490;
223 _ozr = -0.000729;
224
225 _sc = 2.12;
[8405]226 _scr = 0.11;
[8720]227
228 _t0 = 2010.0;
[5340]229 }
[10533]230 else if (_crdTrafoStr == "Custom") {
[6877]231 _dx = settings.value("trafo_dx").toDouble();
232 _dy = settings.value("trafo_dy").toDouble();
233 _dz = settings.value("trafo_dz").toDouble();
[3222]234 _dxr = settings.value("trafo_dxr").toDouble();
235 _dyr = settings.value("trafo_dyr").toDouble();
236 _dzr = settings.value("trafo_dzr").toDouble();
[6877]237 _ox = settings.value("trafo_ox").toDouble();
238 _oy = settings.value("trafo_oy").toDouble();
239 _oz = settings.value("trafo_oz").toDouble();
[3222]240 _oxr = settings.value("trafo_oxr").toDouble();
241 _oyr = settings.value("trafo_oyr").toDouble();
242 _ozr = settings.value("trafo_ozr").toDouble();
[6877]243 _sc = settings.value("trafo_sc").toDouble();
[3222]244 _scr = settings.value("trafo_scr").toDouble();
[6877]245 _t0 = settings.value("trafo_t0").toDouble();
[3222]246 }
[9911]247 // TODO: the following lines can be deleted if all parameters are updated regarding ITRF2020
[10533]248 if (_crdTrafoStr == "ETRF2000" ||
249 _crdTrafoStr == "GDA2020" ||
250 _crdTrafoStr == "DREF91" ||
251 _crdTrafoStr == "SIRGAS2000") {
[9911]252 // Transformation Parameters from ITRF2020 to ITRF2014
253 // from ITRF web site: https://itrf.ign.fr/en/solutions/transformations
254 _dx14 = -0.0014;
255 _dy14 = -0.0009;
256 _dz14 = 0.0014;
[9917]257 _dxr14 = 0.0;
[9911]258 _dyr14 = -0.0001;
259 _dzr14 = -0.0002;
[9917]260 _ox14 = 0.0;
261 _oy14 = 0.0;
262 _oz14 = 0.0;
263 _oxr14 = 0.0;
264 _oyr14 = 0.0;
265 _ozr14 = 0.0;
266 _sc14 = -0.42;
267 _scr14 = 0.0;
[9911]268 _t014 = 2015.0;
269 }
[3222]270}
271
272// Destructor
273////////////////////////////////////////////////////////////////////////////
[3224]274bncRtnetUploadCaster::~bncRtnetUploadCaster() {
[3222]275 if (isRunning()) {
276 wait();
277 }
278 delete _rnx;
279 delete _sp3;
280 delete _ephUser;
[3753]281 delete _usedEph;
[9025]282 delete _ssrCorr;
[3222]283}
284
[5662]285//
[3222]286////////////////////////////////////////////////////////////////////////////
[9032]287void bncRtnetUploadCaster::decodeRtnetStream(char* buffer, int bufLen) {
288
[3222]289 QMutexLocker locker(&_mutex);
290
[9842]291 // Append to internal buffer
[3230]292 // -------------------------
[3222]293 _rtnetStreamBuffer.append(QByteArray(buffer, bufLen));
[3230]294
295 // Select buffer part that contains last epoch
296 // -------------------------------------------
[9868]297
298 // Find the begin of last epoch
299 int iEpoBeg = _rtnetStreamBuffer.lastIndexOf('*');
[3230]300 if (iEpoBeg == -1) {
[3226]301 _rtnetStreamBuffer.clear();
[9871]302 emit(newMessage(QString("bncRtnetUploadCaster: no Epoch line found: %1").arg(_casterID).toLatin1(), false));
[3226]303 return;
[3222]304 }
[9843]305
[9868]306 // Find the begin of the first epoch
307 int iEpoBegEarlier = _rtnetStreamBuffer.indexOf('*');
308 if (iEpoBegEarlier != -1 && iEpoBegEarlier < iEpoBeg) {
309 _rtnetStreamBuffer = _rtnetStreamBuffer.mid(iEpoBegEarlier);
310 }
311 else {
312 _rtnetStreamBuffer = _rtnetStreamBuffer.mid(iEpoBeg);
313 }
314
315 // Find End of the last epoch
316 int iEpoEnd = _rtnetStreamBuffer.lastIndexOf("EOE");
[9861]317 if (iEpoEnd == -1) {
[9868]318 _rtnetStreamBuffer.clear();
[9871]319 emit(newMessage(QString("bncRtnetUploadCaster: no EOE found: %1").arg(_casterID).toLatin1(), false));
[9861]320 return;
[8755]321 }
[9868]322
[9880]323 QStringList lines;
[9868]324 // If there is there more than 1 epoch line in the buffer
325 while (_rtnetStreamBuffer.count('*') > 1) {
[9881]326 emit(newMessage(QString("bncRtnetUploadCaster: more than 1 epoch in buffer: %1").arg(_rtnetStreamBuffer.count('*')).toLatin1(), false));
[9880]327 QString rtnetStreamBuffer = _rtnetStreamBuffer;
[9873]328 int nextEpoch = rtnetStreamBuffer.indexOf('*');
[9880]329 int nextEpochEnd = rtnetStreamBuffer.indexOf("EOE");
330 _rtnetStreamBuffer = _rtnetStreamBuffer.mid(1);
[9868]331 if (nextEpoch != -1 && nextEpoch < iEpoEnd) {
[9930]332 rtnetStreamBuffer = rtnetStreamBuffer.mid(nextEpoch, nextEpochEnd);
[10548]333 lines = rtnetStreamBuffer.split('\n', Qt::SkipEmptyParts);
[9880]334 if (lines.size() > 2) {
335 decodeRtnetEpoch(lines);
336 }
[9886]337 nextEpochEnd = _rtnetStreamBuffer.indexOf("EOE");
[9882]338 _rtnetStreamBuffer = _rtnetStreamBuffer.mid(nextEpochEnd+3);
[9868]339 }
[9930]340 else if (nextEpoch != -1 && nextEpoch >= iEpoEnd) {
[9868]341 break;
342 }
[6896]343 }
[9843]344
[10548]345 lines = _rtnetStreamBuffer.left(iEpoEnd).split('\n', Qt::SkipEmptyParts);
[9930]346
[9868]347 _rtnetStreamBuffer = _rtnetStreamBuffer.mid(iEpoEnd + 3);
[9930]348
[9861]349 if (lines.size() < 2) {
[9871]350 emit(newMessage(QString("bncRtnetUploadCaster: less than 2 lines to decode : %1").arg(_casterID).toLatin1(), false));
[3230]351 return;
352 }
[9868]353 decodeRtnetEpoch(lines);
354}
355
356//
357////////////////////////////////////////////////////////////////////////////
358void bncRtnetUploadCaster::decodeRtnetEpoch(QStringList epochLines) {
359
[3226]360 // Read first line (with epoch time)
361 // ---------------------------------
[9930]362 QTextStream in(epochLines[0].toLatin1());
[3226]363 QString hlp;
[6877]364 int year, month, day, hour, min;
365 double sec;
[3226]366 in >> hlp >> year >> month >> day >> hour >> min >> sec;
[6877]367 bncTime epoTime;
[9930]368 epoTime.set(year, month, day, hour, min, sec);
[3226]369
[6877]370 emit(newMessage(
371 "bncRtnetUploadCaster: decode " + QByteArray(epoTime.datestr().c_str())
372 + " " + QByteArray(epoTime.timestr().c_str()) + " "
[8204]373 + _casterID.toLatin1(), false));
[4808]374
[9025]375 struct SsrCorr::ClockOrbit co;
[3222]376 memset(&co, 0, sizeof(co));
[8991]377 co.EpochTime[CLOCKORBIT_SATGPS] = static_cast<int>(epoTime.gpssec());
[10533]378 double gt = epoTime.gpssec() - gnumleap(year, month, day);
[9025]379 if (_ssrFormat == "RTCM-SSR") {
[10533]380 gt += 3 * 3600;
[9025]381 }
[10533]382 co.EpochTime[CLOCKORBIT_SATGLONASS] = static_cast<int>(fmod(gt, 86400.0));
[6846]383 co.EpochTime[CLOCKORBIT_SATGALILEO] = static_cast<int>(epoTime.gpssec());
[9025]384 co.EpochTime[CLOCKORBIT_SATQZSS] = static_cast<int>(epoTime.gpssec());
385 co.EpochTime[CLOCKORBIT_SATSBAS] = static_cast<int>(epoTime.gpssec());
[10533]386 co.EpochTime[CLOCKORBIT_SATBDS] = static_cast<int>(epoTime.bdssec());
387 co.Supplied[_ssrCorr->COBOFS_CLOCK] = 1;
388 co.Supplied[_ssrCorr->COBOFS_ORBIT] = 1;
389 (_crdTrafoStr == "IGS20") ?
390 co.SatRefDatum = _ssrCorr->DATUM_ITRF :
391 co.SatRefDatum = _ssrCorr->DATUM_LOCAL;
392 co.SSRIOD = _IOD;
393 co.SSRProviderID = _PID; // 256 .. BKG, 257 ... EUREF
394 co.SSRSolutionID = _SID;
[9025]395 if (_ssrFormat == "RTCM-SSR") {
396 co.EpochTime[CLOCKORBIT_SATBDS] = static_cast<int>(epoTime.bdssec());
397 }
398 else if (_ssrFormat == "IGS-SSR") {
399 co.EpochTime[CLOCKORBIT_SATBDS] = static_cast<int>(epoTime.gpssec());
400 }
401 co.Supplied[_ssrCorr->COBOFS_CLOCK] = 1;
402 co.Supplied[_ssrCorr->COBOFS_ORBIT] = 1;
[5662]403
[10533]404
405 t_serviceCrs serviceCrs;
406 t_rtcmCrs rtcmCrs;
407 if (_crdTrafoStr == "IGS20") {
408 serviceCrs._CE = serviceCrs._coordinateEpoch = 0;
409 int nc = _crdTrafoStr.length();
410 if (nc > 31) {nc = 31;}
411 for (int i = 0; i < nc; i++) {
412 serviceCrs._name[i] =
413 rtcmCrs._name[i] = _crdTrafoStr.toStdString()[i];
414 }
415 serviceCrs._name[nc] = 0;
416 rtcmCrs._name[nc] = 0;
417 rtcmCrs._anchor = 0; // global CRS
418 rtcmCrs._plateNumber = 0; // unknown
419 rtcmCrs._databaseLinks << "ISO.DATUM.979" << "ISO.CRS:980";
420 }
421 else {
422 if (_crdTrafoStr != "Custom") {
423 serviceCrs._coordinateEpoch = _t0;
424 serviceCrs.setCEFromCoordinateEpoch();
425 int nc = _crdTrafoStr.length();
426 if (nc > 31) {nc = 31;}
427 for (int i = 0; i < nc; i++) {
428 serviceCrs._name[i] = _crdTrafoStr.toStdString()[i];
429 }
430 serviceCrs._name[nc] = 0;
431 QString rtcmcrsname = _crdTrafoStr + QString("(%1)").arg(_t0,4,'d',0);
432 nc = rtcmcrsname.length();
433 if (nc > 31) {nc = 31;}
434 for (int i = 0; i < nc; i++) {
435 rtcmCrs._name[i] = rtcmcrsname.toStdString()[i];
436 }
437 rtcmCrs._name[nc] = 0;
438 if (_crdTrafoStr == "ETRF2000") {
439 rtcmCrs._anchor = 1; // plate-fixed CRS
440 rtcmCrs._plateNumber = 7; // Eurasia
441 rtcmCrs._databaseLinks << "ISO.DATUM.187" << "ISO.CRS:260" << "ISO.CRS:457"
442 << "EPSG.DATUM:1186" << "EPSG.CRS:7930" << "EPSG.CRS:7931";
443 }
444 else if (_crdTrafoStr == "DREF91") {
445 rtcmCrs._anchor = 1; // plate-fixed CRS
446 rtcmCrs._plateNumber = 7; // Eurasia
447 }
448 else if (_crdTrafoStr == "GDA2020") {
449 rtcmCrs._anchor = 1; // plate-fixed CRS
450 rtcmCrs._plateNumber = 4; // Australia
451 rtcmCrs._databaseLinks << "ISO.DATUM.186" << "ISO.CRS:404" << "ISO.CRS:329"
452 << "EPSG.DATUM:1168" << "EPSG.CRS:7842" << "EPSG.CRS:7843";
453 }
454 else if (_crdTrafoStr == "SIRGAS2000") {
455 rtcmCrs._anchor = 1; // plate-fixed CRS
456 rtcmCrs._plateNumber = 12; // S.America
457 rtcmCrs._databaseLinks << "ISO.DATUM:169" << "ISO.CRS:384" << "ISO.CRS:313"
458 << "EPSG.DATUM:6674" << "EPSG.CRS:4988" << "EPSG.CRS:4989";
459 }
460 }
461 }
462
463
[9025]464 struct SsrCorr::CodeBias bias;
[3222]465 memset(&bias, 0, sizeof(bias));
[9025]466 bias.EpochTime[CLOCKORBIT_SATGPS] = co.EpochTime[CLOCKORBIT_SATGPS];
[5666]467 bias.EpochTime[CLOCKORBIT_SATGLONASS] = co.EpochTime[CLOCKORBIT_SATGLONASS];
[6846]468 bias.EpochTime[CLOCKORBIT_SATGALILEO] = co.EpochTime[CLOCKORBIT_SATGALILEO];
[9025]469 bias.EpochTime[CLOCKORBIT_SATQZSS] = co.EpochTime[CLOCKORBIT_SATQZSS];
470 bias.EpochTime[CLOCKORBIT_SATSBAS] = co.EpochTime[CLOCKORBIT_SATSBAS];
471 bias.EpochTime[CLOCKORBIT_SATBDS] = co.EpochTime[CLOCKORBIT_SATBDS];
472 bias.SSRIOD = _IOD;
[6850]473 bias.SSRProviderID = _PID;
474 bias.SSRSolutionID = _SID;
[5662]475
[9025]476 struct SsrCorr::PhaseBias phasebias;
[6850]477 memset(&phasebias, 0, sizeof(phasebias));
[8017]478 unsigned int dispersiveBiasConsistenyIndicator = 0;
479 unsigned int mwConsistencyIndicator = 0;
[9025]480 phasebias.EpochTime[CLOCKORBIT_SATGPS] = co.EpochTime[CLOCKORBIT_SATGPS];
[6850]481 phasebias.EpochTime[CLOCKORBIT_SATGLONASS] = co.EpochTime[CLOCKORBIT_SATGLONASS];
482 phasebias.EpochTime[CLOCKORBIT_SATGALILEO] = co.EpochTime[CLOCKORBIT_SATGALILEO];
[9025]483 phasebias.EpochTime[CLOCKORBIT_SATQZSS] = co.EpochTime[CLOCKORBIT_SATQZSS];
484 phasebias.EpochTime[CLOCKORBIT_SATSBAS] = co.EpochTime[CLOCKORBIT_SATSBAS];
485 phasebias.EpochTime[CLOCKORBIT_SATBDS] = co.EpochTime[CLOCKORBIT_SATBDS];
486 phasebias.SSRIOD = _IOD;
[6850]487 phasebias.SSRProviderID = _PID;
488 phasebias.SSRSolutionID = _SID;
489
[9025]490 struct SsrCorr::VTEC vtec;
[6860]491 memset(&vtec, 0, sizeof(vtec));
492 vtec.EpochTime = static_cast<int>(epoTime.gpssec());
[9025]493 vtec.SSRIOD = _IOD;
[6860]494 vtec.SSRProviderID = _PID;
495 vtec.SSRSolutionID = _SID;
496
[4753]497 // Default Update Interval
498 // -----------------------
[4754]499 int clkUpdInd = 2; // 5 sec
500 int ephUpdInd = clkUpdInd; // default
[6557]501
[9275]502 if (!_samplRtcmEphCorr) {
503 _samplRtcmEphCorr = 5.0;
504 }
505
[6559]506 if (_samplRtcmClkCorr > 5.0 && _samplRtcmEphCorr <= 5.0) { // combined orb and clock
507 ephUpdInd = determineUpdateInd(_samplRtcmClkCorr);
[4754]508 }
[6559]509 if (_samplRtcmClkCorr > 5.0) {
[6557]510 clkUpdInd = determineUpdateInd(_samplRtcmClkCorr);
[4754]511 }
[6559]512 if (_samplRtcmEphCorr > 5.0) {
513 ephUpdInd = determineUpdateInd(_samplRtcmEphCorr);
514 }
[4753]515
[6877]516 co.UpdateInterval = clkUpdInd;
[9124]517 bias.UpdateInterval = ephUpdInd;
518 phasebias.UpdateInterval = ephUpdInd;
[4753]519
[9868]520 for (int ii = 1; ii < epochLines.size(); ii++) {
[6877]521 QString key; // prn or key VTEC, IND (phase bias indicators)
[9247]522 double rtnUra = 0.0; // [m]
[8679]523 ColumnVector rtnAPC; rtnAPC.ReSize(3); rtnAPC = 0.0; // [m, m, m]
524 ColumnVector rtnVel; rtnVel.ReSize(3); rtnVel = 0.0; // [m/s, m/s, m/s]
525 ColumnVector rtnCoM; rtnCoM.ReSize(3); rtnCoM = 0.0; // [m, m, m]
526 ColumnVector rtnClk; rtnClk.ReSize(3); rtnClk = 0.0; // [m, m/s, m/s²]
527 ColumnVector rtnClkSig; rtnClkSig.ReSize(3); rtnClkSig = 0.0; // [m, m/s, m/s²]
[6877]528 t_prn prn;
[5662]529
[9868]530 QTextStream in(epochLines[ii].toLatin1());
[3222]531
[6876]532 in >> key;
[3222]533
[6860]534 // non-satellite specific parameters
[6877]535 if (key.contains("IND", Qt::CaseSensitive)) {
[8017]536 in >> dispersiveBiasConsistenyIndicator >> mwConsistencyIndicator;
[6860]537 continue;
538 }
[6893]539 // non-satellite specific parameters
[6876]540 if (key.contains("VTEC", Qt::CaseSensitive)) {
[6897]541 double ui;
542 in >> ui >> vtec.NumLayers;
543 vtec.UpdateInterval = (unsigned int) determineUpdateInd(ui);
[6860]544 for (unsigned ll = 0; ll < vtec.NumLayers; ll++) {
545 int dummy;
546 in >> dummy >> vtec.Layers[ll].Degree >> vtec.Layers[ll].Order
[6877]547 >> vtec.Layers[ll].Height;
[6879]548 for (unsigned iDeg = 0; iDeg <= vtec.Layers[ll].Degree; iDeg++) {
549 for (unsigned iOrd = 0; iOrd <= vtec.Layers[ll].Order; iOrd++) {
[6860]550 in >> vtec.Layers[ll].Cosinus[iDeg][iOrd];
551 }
552 }
[6879]553 for (unsigned iDeg = 0; iDeg <= vtec.Layers[ll].Degree; iDeg++) {
554 for (unsigned iOrd = 0; iOrd <= vtec.Layers[ll].Order; iOrd++) {
[6860]555 in >> vtec.Layers[ll].Sinus[iDeg][iOrd];
556 }
557 }
558 }
559 continue;
560 }
[6877]561 // satellite specific parameters
[8204]562 char sys = key.mid(0, 1).at(0).toLatin1();
[6877]563 int number = key.mid(1, 2).toInt();
564 int flags = 0;
565 if (sys == 'E') { // I/NAV
566 flags = 1;
567 }
[9509]568 if (number == 0) {
569 continue;
570 }
[6876]571 prn.set(sys, number, flags);
572 QString prnInternalStr = QString::fromStdString(prn.toInternalString());
[6877]573 QString prnStr = QString::fromStdString(prn.toString());
574
[6876]575 const t_eph* ephLast = _ephUser->ephLast(prnInternalStr);
576 const t_eph* ephPrev = _ephUser->ephPrev(prnInternalStr);
[6877]577 const t_eph* eph = ephLast;
[6442]578 if (eph) {
[3754]579
[4098]580 // Use previous ephemeris if the last one is too recent
581 // ----------------------------------------------------
582 const int MINAGE = 60; // seconds
[10124]583 if (ephPrev && eph->receptDateTime().isValid() &&
584 eph->receptDateTime().secsTo(currentDateAndTimeGPS()) < MINAGE) {
[6442]585 eph = ephPrev;
[4098]586 }
[3754]587
[3753]588 // Make sure the clock messages refer to same IOD as orbit messages
589 // ----------------------------------------------------------------
590 if (_usedEph) {
[4174]591 if (fmod(epoTime.gpssec(), _samplRtcmEphCorr) == 0.0) {
[6876]592 (*_usedEph)[prnInternalStr] = eph;
[3753]593 }
594 else {
595 eph = 0;
[6876]596 if (_usedEph->contains(prnInternalStr)) {
597 const t_eph* usedEph = _usedEph->value(prnInternalStr);
[6877]598 if (usedEph == ephLast) {
[6442]599 eph = ephLast;
[3753]600 }
[6442]601 else if (usedEph == ephPrev) {
602 eph = ephPrev;
[3753]603 }
604 }
605 }
606 }
[9354]607 }
[9930]608
[10330]609 QDateTime now = currentDateAndTimeGPS();
610 bncTime currentTime(now.toString(Qt::ISODate).toStdString());
[9354]611 if (eph &&
[10330]612 !outDatedBcep(eph, currentTime) && // detected from storage because of no update
[9354]613 eph->checkState() != t_eph::bad &&
614 eph->checkState() != t_eph::unhealthy &&
615 eph->checkState() != t_eph::outdated) { // detected during reception (bncephuser)
616 QMap<QString, double> codeBiases;
617 QList<phaseBiasSignal> phaseBiasList;
618 phaseBiasesSat pbSat;
619 _phaseBiasInformationDecoded = false;
[3753]620
[9354]621 while (true) {
622 QString key;
623 int numVal = 0;
624 in >> key;
625 if (in.status() != QTextStream::Ok) {
626 break;
627 }
628 if (key == "APC") {
629 in >> numVal;
630 rtnAPC.ReSize(3); rtnAPC = 0.0;
631 for (int ii = 0; ii < numVal; ii++) {
632 in >> rtnAPC[ii];
[6850]633 }
[9354]634 }
635 else if (key == "Ura") {
636 in >> numVal;
637 if (numVal == 1)
638 in >> rtnUra;
639 }
640 else if (key == "Clk") {
641 in >> numVal;
642 rtnClk.ReSize(3); rtnClk = 0.0;
643 for (int ii = 0; ii < numVal; ii++) {
644 in >> rtnClk[ii];
[8483]645 }
[9354]646 }
647 else if (key == "ClkSig") {
648 in >> numVal;
649 rtnClkSig.ReSize(3); rtnClkSig = 0.0;
650 for (int ii = 0; ii < numVal; ii++) {
651 in >> rtnClkSig[ii];
[8483]652 }
[9354]653 }
654 else if (key == "Vel") {
655 in >> numVal;
656 rtnVel.ReSize(3); rtnVel = 0.0;
657 for (int ii = 0; ii < numVal; ii++) {
658 in >> rtnVel[ii];
[6850]659 }
[9354]660 }
661 else if (key == "CoM") {
662 in >> numVal;
663 rtnCoM.ReSize(3); rtnCoM = 0.0;
664 for (int ii = 0; ii < numVal; ii++) {
665 in >> rtnCoM[ii];
[6850]666 }
[9354]667 }
668 else if (key == "CodeBias") {
669 in >> numVal;
670 for (int ii = 0; ii < numVal; ii++) {
671 QString type;
672 double value;
673 in >> type >> value;
674 codeBiases[type] = value;
[5503]675 }
[9354]676 }
677 else if (key == "YawAngle") {
678 _phaseBiasInformationDecoded = true;
679 in >> numVal >> pbSat.yawAngle;
680 if (pbSat.yawAngle < 0.0) {
681 pbSat.yawAngle += (2*M_PI);
[6975]682 }
[9354]683 else if (pbSat.yawAngle > 2*M_PI) {
684 pbSat.yawAngle -= (2*M_PI);
[6975]685 }
[6851]686 }
[9354]687 else if (key == "YawRate") {
688 _phaseBiasInformationDecoded = true;
689 in >> numVal >> pbSat.yawRate;
[6851]690 }
[9354]691 else if (key == "PhaseBias") {
692 _phaseBiasInformationDecoded = true;
693 in >> numVal;
694 for (int ii = 0; ii < numVal; ii++) {
695 phaseBiasSignal pb;
696 in >> pb.type >> pb.bias >> pb.integerIndicator
697 >> pb.wlIndicator >> pb.discontinuityCounter;
698 phaseBiasList.append(pb);
[6850]699 }
700 }
[9354]701 else {
702 in >> numVal;
703 for (int ii = 0; ii < numVal; ii++) {
704 double dummy;
705 in >> dummy;
[8689]706 }
[9354]707 emit(newMessage(" RTNET format error: "
[9869]708 + epochLines[ii].toLatin1(), false));
[9821]709 break;
[4991]710 }
[9354]711 }
[6850]712
[9354]713 struct SsrCorr::ClockOrbit::SatData* sd = 0;
714 if (prn.system() == 'G') {
715 sd = co.Sat + co.NumberOfSat[CLOCKORBIT_SATGPS];
716 ++co.NumberOfSat[CLOCKORBIT_SATGPS];
717 }
718 else if (prn.system() == 'R') {
719 sd = co.Sat + CLOCKORBIT_NUMGPS + co.NumberOfSat[CLOCKORBIT_SATGLONASS];
720 ++co.NumberOfSat[CLOCKORBIT_SATGLONASS];
721 }
722 else if (prn.system() == 'E') {
723 sd = co.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
724 + co.NumberOfSat[CLOCKORBIT_SATGALILEO];
725 ++co.NumberOfSat[CLOCKORBIT_SATGALILEO];
726 }
727 else if (prn.system() == 'J') {
728 sd = co.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
729 + CLOCKORBIT_NUMGALILEO
730 + co.NumberOfSat[CLOCKORBIT_SATQZSS];
731 ++co.NumberOfSat[CLOCKORBIT_SATQZSS];
732 }
733 else if (prn.system() == 'S') {
734 sd = co.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
735 + CLOCKORBIT_NUMGALILEO + CLOCKORBIT_NUMQZSS
736 + co.NumberOfSat[CLOCKORBIT_SATSBAS];
737 ++co.NumberOfSat[CLOCKORBIT_SATSBAS];
738 }
739 else if (prn.system() == 'C') {
740 sd = co.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
741 + CLOCKORBIT_NUMGALILEO + CLOCKORBIT_NUMQZSS
742 + CLOCKORBIT_NUMSBAS
743 + co.NumberOfSat[CLOCKORBIT_SATBDS];
744 ++co.NumberOfSat[CLOCKORBIT_SATBDS];
745 }
746 if (sd) {
747 QString outLine;
748 t_irc irc = processSatellite(eph, epoTime.gpsw(), epoTime.gpssec(), prnStr, rtnAPC,
749 rtnUra, rtnClk, rtnVel, rtnCoM, rtnClkSig, sd, outLine);
[9509]750 if (irc != success) {
[9354]751 continue;
[8542]752 }
[9354]753 }
[5662]754
[9354]755 // Code Biases
756 // -----------
757 struct SsrCorr::CodeBias::BiasSat* biasSat = 0;
758 if (!codeBiases.isEmpty()) {
759 if (prn.system() == 'G') {
760 biasSat = bias.Sat + bias.NumberOfSat[CLOCKORBIT_SATGPS];
761 ++bias.NumberOfSat[CLOCKORBIT_SATGPS];
[6877]762 }
763 else if (prn.system() == 'R') {
[9354]764 biasSat = bias.Sat + CLOCKORBIT_NUMGPS
765 + bias.NumberOfSat[CLOCKORBIT_SATGLONASS];
766 ++bias.NumberOfSat[CLOCKORBIT_SATGLONASS];
[6877]767 }
768 else if (prn.system() == 'E') {
[9354]769 biasSat = bias.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
770 + bias.NumberOfSat[CLOCKORBIT_SATGALILEO];
771 ++bias.NumberOfSat[CLOCKORBIT_SATGALILEO];
[6877]772 }
773 else if (prn.system() == 'J') {
[9354]774 biasSat = bias.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
775 + CLOCKORBIT_NUMGALILEO
776 + bias.NumberOfSat[CLOCKORBIT_SATQZSS];
777 ++bias.NumberOfSat[CLOCKORBIT_SATQZSS];
[6877]778 }
779 else if (prn.system() == 'S') {
[9354]780 biasSat = bias.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
781 + CLOCKORBIT_NUMGALILEO + CLOCKORBIT_NUMQZSS
782 + bias.NumberOfSat[CLOCKORBIT_SATSBAS];
783 ++bias.NumberOfSat[CLOCKORBIT_SATSBAS];
[6877]784 }
[8982]785 else if (prn.system() == 'C') {
[9354]786 biasSat = bias.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
787 + CLOCKORBIT_NUMGALILEO + CLOCKORBIT_NUMQZSS
788 + CLOCKORBIT_NUMSBAS
789 + bias.NumberOfSat[CLOCKORBIT_SATBDS];
790 ++bias.NumberOfSat[CLOCKORBIT_SATBDS];
[8982]791 }
[9354]792 }
[5662]793
[9354]794 if (biasSat) {
795 biasSat->ID = prn.number();
796 biasSat->NumberOfCodeBiases = 0;
797 QMapIterator<QString, double> it(codeBiases);
798 while (it.hasNext()) {
799 it.next();
800 int ii = biasSat->NumberOfCodeBiases;
801 if (ii >= CLOCKORBIT_NUMBIAS)
802 break;
803 SsrCorr::CodeType type = _ssrCorr->rnxTypeToCodeType(prn.system(), it.key().toStdString());
804 if (type != _ssrCorr->RESERVED) {
805 biasSat->NumberOfCodeBiases += 1;
806 biasSat->Biases[ii].Type = type;
807 biasSat->Biases[ii].Bias = it.value();
[9652]808 if (_bsx) {
809 QString obsCode = 'C' + it.key();
810 _bsx->write(epoTime.gpsw(), epoTime.gpssec(), prnStr, obsCode, it.value());
811 }
[5503]812 }
[3222]813 }
814 }
[9354]815
816 // Phase Biases
817 // ------------
818 struct SsrCorr::PhaseBias::PhaseBiasSat* phasebiasSat = 0;
819 if (prn.system() == 'G') {
820 phasebiasSat = phasebias.Sat
821 + phasebias.NumberOfSat[CLOCKORBIT_SATGPS];
822 ++phasebias.NumberOfSat[CLOCKORBIT_SATGPS];
823 }
824 else if (prn.system() == 'R') {
825 phasebiasSat = phasebias.Sat + CLOCKORBIT_NUMGPS
826 + phasebias.NumberOfSat[CLOCKORBIT_SATGLONASS];
827 ++phasebias.NumberOfSat[CLOCKORBIT_SATGLONASS];
828 }
829 else if (prn.system() == 'E') {
830 phasebiasSat = phasebias.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
831 + phasebias.NumberOfSat[CLOCKORBIT_SATGALILEO];
832 ++phasebias.NumberOfSat[CLOCKORBIT_SATGALILEO];
833 }
834 else if (prn.system() == 'J') {
835 phasebiasSat = phasebias.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
836 + CLOCKORBIT_NUMGALILEO
837 + phasebias.NumberOfSat[CLOCKORBIT_SATQZSS];
838 ++phasebias.NumberOfSat[CLOCKORBIT_SATQZSS];
839 }
840 else if (prn.system() == 'S') {
841 phasebiasSat = phasebias.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
842 + CLOCKORBIT_NUMGALILEO + CLOCKORBIT_NUMQZSS
843 + phasebias.NumberOfSat[CLOCKORBIT_SATSBAS];
844 ++phasebias.NumberOfSat[CLOCKORBIT_SATSBAS];
845 }
846 else if (prn.system() == 'C') {
847 phasebiasSat = phasebias.Sat + CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS
848 + CLOCKORBIT_NUMGALILEO + CLOCKORBIT_NUMQZSS
849 + CLOCKORBIT_NUMSBAS
850 + phasebias.NumberOfSat[CLOCKORBIT_SATBDS];
851 ++phasebias.NumberOfSat[CLOCKORBIT_SATBDS];
852 }
853
854 if (phasebiasSat && _phaseBiasInformationDecoded) {
855 phasebias.DispersiveBiasConsistencyIndicator = dispersiveBiasConsistenyIndicator;
856 phasebias.MWConsistencyIndicator = mwConsistencyIndicator;
857 phasebiasSat->ID = prn.number();
858 phasebiasSat->NumberOfPhaseBiases = 0;
859 phasebiasSat->YawAngle = pbSat.yawAngle;
860 phasebiasSat->YawRate = pbSat.yawRate;
861 QListIterator<phaseBiasSignal> it(phaseBiasList);
862 while (it.hasNext()) {
863 const phaseBiasSignal &pbSig = it.next();
864 int ii = phasebiasSat->NumberOfPhaseBiases;
865 if (ii >= CLOCKORBIT_NUMBIAS)
866 break;
867 SsrCorr::CodeType type = _ssrCorr->rnxTypeToCodeType(prn.system(), pbSig.type.toStdString());
868 if (type != _ssrCorr->RESERVED) {
869 phasebiasSat->NumberOfPhaseBiases += 1;
870 phasebiasSat->Biases[ii].Type = type;
871 phasebiasSat->Biases[ii].Bias = pbSig.bias;
872 phasebiasSat->Biases[ii].SignalIntegerIndicator = pbSig.integerIndicator;
873 phasebiasSat->Biases[ii].SignalsWideLaneIntegerIndicator = pbSig.wlIndicator;
874 phasebiasSat->Biases[ii].SignalDiscontinuityCounter = pbSig.discontinuityCounter;
[9652]875 if (_bsx) {
876 QString obsCode = 'L' + pbSig.type;
877 _bsx->write(epoTime.gpsw(), epoTime.gpssec(), prnStr, obsCode, pbSig.bias);
878 }
[9354]879 }
880 }
881 }
[3222]882 }
883 }
[3227]884
[5662]885 QByteArray hlpBufferCo;
[3493]886
887 // Orbit and Clock Corrections together
888 // ------------------------------------
[9275]889 if (_samplRtcmEphCorr == _samplRtcmClkCorr) {
[6877]890 if (co.NumberOfSat[CLOCKORBIT_SATGPS] > 0
891 || co.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0
892 || co.NumberOfSat[CLOCKORBIT_SATGALILEO] > 0
893 || co.NumberOfSat[CLOCKORBIT_SATQZSS] > 0
894 || co.NumberOfSat[CLOCKORBIT_SATSBAS] > 0
895 || co.NumberOfSat[CLOCKORBIT_SATBDS] > 0) {
[10227]896 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[9025]897 int len = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_AUTO, 0, obuffer, sizeof(obuffer));
[3493]898 if (len > 0) {
899 hlpBufferCo = QByteArray(obuffer, len);
900 }
[3222]901 }
902 }
[3493]903
904 // Orbit and Clock Corrections separately
905 // --------------------------------------
906 else {
[5666]907 if (co.NumberOfSat[CLOCKORBIT_SATGPS] > 0) {
[10227]908 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[4174]909 if (fmod(epoTime.gpssec(), _samplRtcmEphCorr) == 0.0) {
[4754]910 co.UpdateInterval = ephUpdInd;
[10227]911 int len1 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_GPSORBIT, 1, obuffer, sizeof(obuffer));
[4754]912 co.UpdateInterval = clkUpdInd;
[3493]913 if (len1 > 0) {
914 hlpBufferCo += QByteArray(obuffer, len1);
915 }
916 }
[8808]917 int mmsg = (co.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0 ||
918 co.NumberOfSat[CLOCKORBIT_SATGALILEO] > 0 ||
919 co.NumberOfSat[CLOCKORBIT_SATQZSS] > 0 ||
920 co.NumberOfSat[CLOCKORBIT_SATSBAS] > 0 ||
921 co.NumberOfSat[CLOCKORBIT_SATBDS] > 0 ) ? 1 : 0;
[10227]922 int len2 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_GPSCLOCK, mmsg, obuffer, sizeof(obuffer));
[3493]923 if (len2 > 0) {
924 hlpBufferCo += QByteArray(obuffer, len2);
925 }
926 }
[5666]927 if (co.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0) {
[10221]928 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[4174]929 if (fmod(epoTime.gpssec(), _samplRtcmEphCorr) == 0.0) {
[4754]930 co.UpdateInterval = ephUpdInd;
[10227]931 int len1 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_GLONASSORBIT, 1, obuffer, sizeof(obuffer));
[4754]932 co.UpdateInterval = clkUpdInd;
[3493]933 if (len1 > 0) {
934 hlpBufferCo += QByteArray(obuffer, len1);
935 }
936 }
[8808]937 int mmsg = (co.NumberOfSat[CLOCKORBIT_SATGALILEO] > 0 ||
938 co.NumberOfSat[CLOCKORBIT_SATQZSS] > 0 ||
939 co.NumberOfSat[CLOCKORBIT_SATSBAS] > 0 ||
940 co.NumberOfSat[CLOCKORBIT_SATBDS] > 0 ) ? 1 : 0;
[10227]941 int len2 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_GLONASSCLOCK, mmsg, obuffer, sizeof(obuffer));
[3493]942 if (len2 > 0) {
943 hlpBufferCo += QByteArray(obuffer, len2);
944 }
945 }
[6844]946 if (co.NumberOfSat[CLOCKORBIT_SATGALILEO] > 0) {
[10221]947 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[6844]948 if (fmod(epoTime.gpssec(), _samplRtcmEphCorr) == 0.0) {
949 co.UpdateInterval = ephUpdInd;
[10227]950 int len1 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_GALILEOORBIT, 1, obuffer, sizeof(obuffer));
[6844]951 co.UpdateInterval = clkUpdInd;
952 if (len1 > 0) {
953 hlpBufferCo += QByteArray(obuffer, len1);
954 }
955 }
[8808]956 int mmsg = (co.NumberOfSat[CLOCKORBIT_SATQZSS] > 0 ||
957 co.NumberOfSat[CLOCKORBIT_SATSBAS] > 0 ||
958 co.NumberOfSat[CLOCKORBIT_SATBDS] > 0 ) ? 1 : 0;
[10227]959 int len2 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_GALILEOCLOCK, mmsg, obuffer, sizeof(obuffer));
[6844]960 if (len2 > 0) {
961 hlpBufferCo += QByteArray(obuffer, len2);
962 }
963 }
964 if (co.NumberOfSat[CLOCKORBIT_SATQZSS] > 0) {
[10221]965 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[6844]966 if (fmod(epoTime.gpssec(), _samplRtcmEphCorr) == 0.0) {
967 co.UpdateInterval = ephUpdInd;
[10227]968 int len1 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_QZSSORBIT, 1, obuffer, sizeof(obuffer));
[6844]969 co.UpdateInterval = clkUpdInd;
970 if (len1 > 0) {
971 hlpBufferCo += QByteArray(obuffer, len1);
972 }
973 }
[8808]974 int mmsg = (co.NumberOfSat[CLOCKORBIT_SATSBAS] > 0 ||
975 co.NumberOfSat[CLOCKORBIT_SATBDS] > 0 ) ? 1 : 0;
[10227]976 int len2 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_QZSSCLOCK, mmsg, obuffer, sizeof(obuffer));
[6844]977 if (len2 > 0) {
978 hlpBufferCo += QByteArray(obuffer, len2);
979 }
980 }
981 if (co.NumberOfSat[CLOCKORBIT_SATSBAS] > 0) {
[10221]982 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[6844]983 if (fmod(epoTime.gpssec(), _samplRtcmEphCorr) == 0.0) {
984 co.UpdateInterval = ephUpdInd;
[10227]985 int len1 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_SBASORBIT, 1, obuffer, sizeof(obuffer));
[6844]986 co.UpdateInterval = clkUpdInd;
987 if (len1 > 0) {
988 hlpBufferCo += QByteArray(obuffer, len1);
989 }
990 }
991 int mmsg = (co.NumberOfSat[CLOCKORBIT_SATBDS] > 0) ? 1 : 0;
[9025]992 int len2 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_SBASCLOCK, mmsg, obuffer,
[6877]993 sizeof(obuffer));
[6844]994 if (len2 > 0) {
995 hlpBufferCo += QByteArray(obuffer, len2);
996 }
997 }
998 if (co.NumberOfSat[CLOCKORBIT_SATBDS] > 0) {
[10221]999 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[6844]1000 if (fmod(epoTime.gpssec(), _samplRtcmEphCorr) == 0.0) {
1001 co.UpdateInterval = ephUpdInd;
[10227]1002 int len1 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_BDSORBIT, 1, obuffer, sizeof(obuffer));
[6844]1003 co.UpdateInterval = clkUpdInd;
1004 if (len1 > 0) {
1005 hlpBufferCo += QByteArray(obuffer, len1);
1006 }
1007 }
[8808]1008 int mmsg = 0;
[10227]1009 int len2 = _ssrCorr->MakeClockOrbit(&co, _ssrCorr->COTYPE_BDSCLOCK, mmsg, obuffer, sizeof(obuffer));
[6844]1010 if (len2 > 0) {
1011 hlpBufferCo += QByteArray(obuffer, len2);
1012 }
1013 }
[3493]1014 }
[5662]1015
[6850]1016 // Code Biases
1017 // -----------
[5662]1018 QByteArray hlpBufferBias;
[6877]1019 if (bias.NumberOfSat[CLOCKORBIT_SATGPS] > 0
1020 || bias.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0
1021 || bias.NumberOfSat[CLOCKORBIT_SATGALILEO] > 0
1022 || bias.NumberOfSat[CLOCKORBIT_SATQZSS] > 0
1023 || bias.NumberOfSat[CLOCKORBIT_SATSBAS] > 0
1024 || bias.NumberOfSat[CLOCKORBIT_SATBDS] > 0) {
[10221]1025 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[9140]1026 if (fmod(epoTime.gpssec(), _samplRtcmEphCorr) == 0.0) {
1027 int len = _ssrCorr->MakeCodeBias(&bias, _ssrCorr->CBTYPE_AUTO, 0, obuffer, sizeof(obuffer));
1028 if (len > 0) {
1029 hlpBufferBias = QByteArray(obuffer, len);
1030 }
[3222]1031 }
1032 }
[3227]1033
[6850]1034 // Phase Biases
1035 // ------------
1036 QByteArray hlpBufferPhaseBias;
[9128]1037 if ((phasebias.NumberOfSat[CLOCKORBIT_SATGPS] > 0
[6877]1038 || phasebias.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0
1039 || phasebias.NumberOfSat[CLOCKORBIT_SATGALILEO] > 0
1040 || phasebias.NumberOfSat[CLOCKORBIT_SATQZSS] > 0
1041 || phasebias.NumberOfSat[CLOCKORBIT_SATSBAS] > 0
[9129]1042 || phasebias.NumberOfSat[CLOCKORBIT_SATBDS] > 0)
1043 && (_phaseBiasInformationDecoded)) {
[10221]1044 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[9140]1045 if (fmod(epoTime.gpssec(), _samplRtcmEphCorr) == 0.0) {
1046 int len = _ssrCorr->MakePhaseBias(&phasebias, _ssrCorr->PBTYPE_AUTO, 0, obuffer, sizeof(obuffer));
1047 if (len > 0) {
1048 hlpBufferPhaseBias = QByteArray(obuffer, len);
1049 }
[6850]1050 }
1051 }
1052
1053 // VTEC
1054 // ----
1055 QByteArray hlpBufferVtec;
[6860]1056 if (vtec.NumLayers > 0) {
[10221]1057 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[10543]1058 if (fmod(epoTime.gpssec(), _samplRtcmVtec) == 0.0) {
[10541]1059 int len = _ssrCorr->MakeVTEC(&vtec, 0, obuffer, sizeof(obuffer));
1060 if (len > 0) {
1061 hlpBufferVtec = QByteArray(obuffer, len);
1062 }
[6860]1063 }
1064 }
[6850]1065
[10537]1066 // Service CRS
1067 // -----------
1068 QByteArray hlpBufferServiceCrs;
1069 if (sizeof(serviceCrs._name) > 0) {
1070 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[10543]1071 if (fmod(epoTime.gpssec(), _samplRtcmCrs) == 0.0) {
[10541]1072 int len = t_crsEncoder::RTCM3(serviceCrs, obuffer, sizeof(obuffer));
1073 if (len > 0) {
1074 hlpBufferServiceCrs = QByteArray(obuffer, len);
1075 }
[10537]1076 }
1077 }
1078
1079 // RTCM CRS
1080 // --------
1081 QByteArray hlpBufferRtcmCrs;
1082 if (sizeof(rtcmCrs._name) > 0) {
1083 char obuffer[CLOCKORBIT_BUFFERSIZE] = {'\0'};
[10543]1084 if (fmod(epoTime.gpssec(), _samplRtcmCrs) == 0.0) {
[10541]1085 int len = t_crsEncoder::RTCM3(rtcmCrs, obuffer, sizeof(obuffer));
1086 if (len > 0) {
1087 hlpBufferRtcmCrs = QByteArray(obuffer, len);
1088 }
[10537]1089 }
1090 }
1091
[10541]1092 // Create OutBuffer
1093 // ----------------
[10537]1094 _outBuffer += hlpBufferCo + hlpBufferBias + hlpBufferPhaseBias + hlpBufferVtec
1095 + hlpBufferServiceCrs + hlpBufferRtcmCrs + '\0';
[3222]1096}
[5662]1097//
[3222]1098////////////////////////////////////////////////////////////////////////////
[8542]1099t_irc bncRtnetUploadCaster::processSatellite(const t_eph* eph, int GPSweek,
[6877]1100 double GPSweeks, const QString& prn, const ColumnVector& rtnAPC,
[8483]1101 double rtnUra, const ColumnVector& rtnClk, const ColumnVector& rtnVel,
1102 const ColumnVector& rtnCoM, const ColumnVector& rtnClkSig,
[9025]1103 struct SsrCorr::ClockOrbit::SatData* sd, QString& outLine) {
[3222]1104
[4930]1105 // Broadcast Position and Velocity
1106 // -------------------------------
[8542]1107 ColumnVector xB(6);
[4930]1108 ColumnVector vB(3);
[8542]1109 t_irc irc = eph->getCrd(bncTime(GPSweek, GPSweeks), xB, vB, false);
[5662]1110
[8542]1111 if (irc != success) {
1112 return irc;
1113 }
1114
[4991]1115 // Precise Position
1116 // ----------------
1117 ColumnVector xP = _CoM ? rtnCoM : rtnAPC;
[3222]1118
[8542]1119 if (xP.size() == 0) {
1120 return failure;
1121 }
1122
[5662]1123 double dc = 0.0;
[10533]1124 if (_crdTrafoStr != "IGS20") {
[9911]1125 crdTrafo14(GPSweek, xP, dc); // ITRF2020 => ITRF2014
1126 crdTrafo(GPSweek, xP, dc); // ITRF2014 to other reference frames
[8094]1127 }
[5662]1128
[4930]1129 // Difference in xyz
1130 // -----------------
[6877]1131 ColumnVector dx = xB.Rows(1, 3) - xP;
1132 ColumnVector dv = vB - rtnVel;
[5662]1133
[4930]1134 // Difference in RSW
1135 // -----------------
[3222]1136 ColumnVector rsw(3);
[6877]1137 XYZ_to_RSW(xB.Rows(1, 3), vB, dx, rsw);
[3222]1138
[4930]1139 ColumnVector dotRsw(3);
[6877]1140 XYZ_to_RSW(xB.Rows(1, 3), vB, dv, dotRsw);
[3222]1141
[4930]1142 // Clock Correction
1143 // ----------------
[8499]1144 double dClkA0 = rtnClk(1) - (xB(4) - dc) * t_CST::c;
[8679]1145 double dClkA1 = 0.0;
1146 if (rtnClk(2)) {
[9126]1147 dClkA1 = rtnClk(2) - xB(5) * t_CST::c;
[8679]1148 }
1149 double dClkA2 = 0.0;
1150 if (rtnClk(3)) {
[9126]1151 dClkA2 = rtnClk(3) - xB(6) * t_CST::c;
[8679]1152 }
[3222]1153
1154 if (sd) {
[6877]1155 sd->ID = prn.mid(1).toInt();
1156 sd->IOD = eph->IOD();
[8483]1157 sd->Clock.DeltaA0 = dClkA0;
1158 sd->Clock.DeltaA1 = dClkA1;
1159 sd->Clock.DeltaA2 = dClkA2;
1160 sd->UserRangeAccuracy = rtnUra;
1161 sd->Orbit.DeltaRadial = rsw(1);
[6877]1162 sd->Orbit.DeltaAlongTrack = rsw(2);
1163 sd->Orbit.DeltaCrossTrack = rsw(3);
[8483]1164 sd->Orbit.DotDeltaRadial = dotRsw(1);
[4930]1165 sd->Orbit.DotDeltaAlongTrack = dotRsw(2);
1166 sd->Orbit.DotDeltaCrossTrack = dotRsw(3);
[9179]1167
[9930]1168 if (corrIsOutOfRange(sd)) {
[10543]1169 emit(newMessage(QString("bncRtnetUploadCaster: SSR parameter is out of its defined range").toLatin1(), false));
[9179]1170 return failure;
1171 }
[3222]1172 }
1173
[9675]1174 outLine = QString().asprintf("%d %.1f %s %u %10.3f %8.3f %8.3f %8.3f %8.3f %8.3f\n", GPSweek,
[8483]1175 GPSweeks, eph->prn().toString().c_str(), eph->IOD(), dClkA0, dClkA1, dClkA2,
[9928]1176 rsw(1), rsw(2), rsw(3)); //fprintf(stderr, "%s\n", outLine.toStdString().c_str());
[3222]1177
[8499]1178 // RTNET full clock for RINEX and SP3 file
1179 // ---------------------------------------
[4991]1180 double relativity = -2.0 * DotProduct(xP, rtnVel) / t_CST::c;
[8499]1181 double clkRnx = (rtnClk[0] - relativity) / t_CST::c; // [s]
[10024]1182 double clkRnxRate = rtnClk[1] / t_CST::c; // [s/s = -]
1183 double clkRnxAcc = rtnClk[2] / t_CST::c; // [s/s² = -/s]
[4991]1184
[3222]1185 if (_rnx) {
[8510]1186 double clkRnxSig, clkRnxRateSig, clkRnxAccSig;
1187 int s = rtnClkSig.size();
1188 switch (s) {
1189 case 1:
1190 clkRnxSig = rtnClkSig[0] / t_CST::c; // [s]
1191 clkRnxRateSig = 0.0; // [s/s = -]
1192 clkRnxAccSig = 0.0; // [s/s² ) -/s]
1193 break;
1194 case 2:
1195 clkRnxSig = rtnClkSig[0] / t_CST::c; // [s]
1196 clkRnxRateSig = rtnClkSig[1] / t_CST::c; // [s/s = -]
1197 clkRnxAccSig = 0.0; // [s/s² ) -/s]
1198 break;
1199 case 3:
1200 clkRnxSig = rtnClkSig[0] / t_CST::c; // [s]
1201 clkRnxRateSig = rtnClkSig[1] / t_CST::c; // [s/s = -]
1202 clkRnxAccSig = rtnClkSig[2] / t_CST::c; // [s/s² ) -/s]
1203 break;
1204 }
[8483]1205 _rnx->write(GPSweek, GPSweeks, prn, clkRnx, clkRnxRate, clkRnxAcc,
1206 clkRnxSig, clkRnxRateSig, clkRnxAccSig);
[3222]1207 }
1208 if (_sp3) {
[8483]1209 _sp3->write(GPSweek, GPSweeks, prn, rtnCoM, clkRnx, rtnVel, clkRnxRate);
[3222]1210 }
[8542]1211 return success;
[3222]1212}
1213
1214// Transform Coordinates
1215////////////////////////////////////////////////////////////////////////////
[5662]1216void bncRtnetUploadCaster::crdTrafo(int GPSWeek, ColumnVector& xyz,
[6877]1217 double& dc) {
[3222]1218
1219 // Current epoch minus 2000.0 in years
1220 // ------------------------------------
[6877]1221 double dt = (GPSWeek - (1042.0 + 6.0 / 7.0)) / 365.2422 * 7.0 + 2000.0 - _t0;
[3222]1222
1223 ColumnVector dx(3);
1224
1225 dx(1) = _dx + dt * _dxr;
1226 dx(2) = _dy + dt * _dyr;
1227 dx(3) = _dz + dt * _dzr;
1228
1229 static const double arcSec = 180.0 * 3600.0 / M_PI;
1230
1231 double ox = (_ox + dt * _oxr) / arcSec;
1232 double oy = (_oy + dt * _oyr) / arcSec;
1233 double oz = (_oz + dt * _ozr) / arcSec;
1234
1235 double sc = 1.0 + _sc * 1e-9 + dt * _scr * 1e-9;
1236
[4912]1237 // Specify approximate center of area
1238 // ----------------------------------
1239 ColumnVector meanSta(3);
1240
[10533]1241 if (_crdTrafoStr == "ETRF2000") {
[6877]1242 meanSta(1) = 3661090.0;
1243 meanSta(2) = 845230.0;
1244 meanSta(3) = 5136850.0;
[4908]1245 }
[10533]1246 else if (_crdTrafoStr == "GDA2020") {
[4973]1247 meanSta(1) = -4052050.0;
[6877]1248 meanSta(2) = 4212840.0;
[4973]1249 meanSta(3) = -2545110.0;
[4912]1250 }
[10533]1251 else if (_crdTrafoStr == "SIRGAS2000") {
[6877]1252 meanSta(1) = 3740860.0;
[4973]1253 meanSta(2) = -4964290.0;
1254 meanSta(3) = -1425420.0;
[4912]1255 }
[10533]1256 else if (_crdTrafoStr == "DREF91") {
[6877]1257 meanSta(1) = 3959579.0;
1258 meanSta(2) = 721719.0;
1259 meanSta(3) = 4931539.0;
[5343]1260 }
[10533]1261 else if (_crdTrafoStr == "Custom") {
[9911]1262 meanSta(1) = 0.0;
1263 meanSta(2) = 0.0;
1264 meanSta(3) = 0.0;
[4912]1265 }
[4908]1266
[4912]1267 // Clock correction proportional to topocentric distance to satellites
1268 // -------------------------------------------------------------------
[8904]1269 double rho = (xyz - meanSta).NormFrobenius();
[4913]1270 dc = rho * (sc - 1.0) / sc / t_CST::c;
[4908]1271
[6877]1272 Matrix rMat(3, 3);
1273 rMat(1, 1) = 1.0;
1274 rMat(1, 2) = -oz;
1275 rMat(1, 3) = oy;
1276 rMat(2, 1) = oz;
1277 rMat(2, 2) = 1.0;
1278 rMat(2, 3) = -ox;
1279 rMat(3, 1) = -oy;
1280 rMat(3, 2) = ox;
1281 rMat(3, 3) = 1.0;
[3222]1282
1283 xyz = sc * rMat * xyz + dx;
1284}
1285
[9911]1286// Transform Coordinates
1287////////////////////////////////////////////////////////////////////////////
1288void bncRtnetUploadCaster::crdTrafo14(int GPSWeek, ColumnVector& xyz,
1289 double& dc) {
1290
1291 // Current epoch minus 2000.0 in years
1292 // ------------------------------------
1293 double dt = (GPSWeek - (1042.0 + 6.0 / 7.0)) / 365.2422 * 7.0 + 2000.0 - _t0;
1294
1295 ColumnVector dx(3);
1296
1297 dx(1) = _dx14 + dt * _dxr14;
1298 dx(2) = _dy14 + dt * _dyr14;
1299 dx(3) = _dz14 + dt * _dzr14;
1300
1301 static const double arcSec = 180.0 * 3600.0 / M_PI;
1302
1303 double ox = (_ox14 + dt * _oxr14) / arcSec;
1304 double oy = (_oy14 + dt * _oyr14) / arcSec;
1305 double oz = (_oz14 + dt * _ozr14) / arcSec;
1306
1307 double sc = 1.0 + _sc14 * 1e-9 + dt * _scr14 * 1e-9;
1308
1309 // Specify approximate center of area
1310 // ----------------------------------
1311 ColumnVector meanSta(3);
1312 meanSta(1) = 0.0; // TODO
1313 meanSta(2) = 0.0; // TODO
1314 meanSta(3) = 0.0; // TODO
1315
1316 // Clock correction proportional to topocentric distance to satellites
1317 // -------------------------------------------------------------------
1318 double rho = (xyz - meanSta).NormFrobenius();
1319 dc = rho * (sc - 1.0) / sc / t_CST::c;
1320
1321 Matrix rMat(3, 3);
1322 rMat(1, 1) = 1.0;
1323 rMat(1, 2) = -oz;
1324 rMat(1, 3) = oy;
1325 rMat(2, 1) = oz;
1326 rMat(2, 2) = 1.0;
1327 rMat(2, 3) = -ox;
1328 rMat(3, 1) = -oy;
1329 rMat(3, 2) = ox;
1330 rMat(3, 3) = 1.0;
1331
1332 xyz = sc * rMat * xyz + dx;
1333}
1334
1335// Update Interval
1336////////////////////////////////////////////////////////////////////////////
[6557]1337int bncRtnetUploadCaster::determineUpdateInd(double samplingRate) {
1338
1339 if (samplingRate == 10.0) {
1340 return 3;
1341 }
1342 else if (samplingRate == 15.0) {
1343 return 4;
1344 }
1345 else if (samplingRate == 30.0) {
1346 return 5;
1347 }
1348 else if (samplingRate == 60.0) {
1349 return 6;
1350 }
1351 else if (samplingRate == 120.0) {
1352 return 7;
1353 }
1354 else if (samplingRate == 240.0) {
1355 return 8;
1356 }
1357 else if (samplingRate == 300.0) {
1358 return 9;
1359 }
1360 else if (samplingRate == 600.0) {
1361 return 10;
1362 }
1363 else if (samplingRate == 900.0) {
1364 return 11;
1365 }
1366 else if (samplingRate == 1800.0) {
1367 return 12;
1368 }
1369 else if (samplingRate == 3600.0) {
1370 return 13;
1371 }
1372 else if (samplingRate == 7200.0) {
1373 return 14;
1374 }
1375 else if (samplingRate == 10800.0) {
1376 return 15;
1377 }
[6877]1378 return 2; // default
[6557]1379}
[9179]1380
[9911]1381// Check corrections
1382////////////////////////////////////////////////////////////////////////////
[9179]1383bool bncRtnetUploadCaster::corrIsOutOfRange(struct SsrCorr::ClockOrbit::SatData* sd) {
1384
1385 if (fabs(sd->Clock.DeltaA0) > 209.7151) {return true;}
1386 if (fabs(sd->Clock.DeltaA1) > 1.048575) {return true;}
1387 if (fabs(sd->Clock.DeltaA2) > 1.34217726) {return true;}
1388
1389 if (fabs(sd->Orbit.DeltaRadial) > 209.7151) {return true;}
1390 if (fabs(sd->Orbit.DeltaAlongTrack) > 209.7148) {return true;}
1391 if (fabs(sd->Orbit.DeltaCrossTrack) > 209.7148) {return true;}
1392
1393 if (fabs(sd->Orbit.DotDeltaRadial) > 1.048575) {return true;}
1394 if (fabs(sd->Orbit.DotDeltaAlongTrack) > 1.048572) {return true;}
1395 if (fabs(sd->Orbit.DotDeltaCrossTrack) > 1.048572) {return true;}
1396 return false;
[9275]1397}
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