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bncrtrover.cpp@ 10212

Last change on this file since 10212 was 5661, checked in by mervart, 11 years ago

File size: 15.8 KB

Line
1
2	#include <iostream>
3	#include <iomanip>
4	#include <string.h>
5
6	#include "bncrtrover.h"
7	#include "bnccore.h"
8	#include "bncsettings.h"
9	#include "bnctime.h"
10
11	#include "rtrover_interface.h"
12
13	using namespace std;
14
15	// Constructor
16	////////////////////////////////////////////////////////////////////////////
17	t_bncRtrover::t_bncRtrover() : QThread(0) {
18	}
19
20	// Destructor
21	////////////////////////////////////////////////////////////////////////////
22	t_bncRtrover::~t_bncRtrover() {
23	rtrover_destroy();
24	}
25
26	// Run (virtual)
27	////////////////////////////////////////////////////////////////////////////
28	void t_bncRtrover::run() {
29	bncSettings settings;
30
31	// User Options
32	// ------------
33	_mode = settings.value("rtroverMode").toByteArray();
34	_roverMount = settings.value("rtroverRoverMount").toByteArray();
35	_baseMount = settings.value("rtroverBaseMount").toByteArray();
36	_corrMount = settings.value("rtroverCorrMount").toByteArray();
37	_outputFile.setFileName(settings.value("rtroverOutput").toString());
38	_outputFile.open(QIODevice::WriteOnly \| QIODevice::Text);
39
40	// Define Input Options
41	// --------------------
42	rtrover_opt opt;
43	rtrover_initOptions(&opt);
44
45	if (_mode == "PPP_DF") {
46	opt._mode = mode_PPP_DF;
47	}
48	else if (_mode == "SPP_DF") {
49	opt._mode = mode_SPP_DF;
50	}
51	else if (_mode == "PPP_SF") {
52	opt._mode = mode_PPP_SF;
53	}
54	else if (_mode == "SPP_SF") {
55	opt._mode = mode_SPP_SF;
56	}
57	else if (_mode == "PPP_AR") {
58	opt._mode = mode_PPP_AR;
59	}
60	else if (_mode == "RTK") {
61	opt._mode = mode_RTK;
62	}
63	else if (_mode == "PPP_FTTF") {
64	opt._mode = mode_PPP_FTTF;
65	}
66
67	QByteArray antNameRover = settings.value("rtroverRoverAntenna").toByteArray();
68	QByteArray antNameBase = settings.value("rtroverBaseAntenna").toByteArray();
69	QByteArray antexFileName = settings.value("rtroverAntex").toByteArray();
70
71	if (!_roverMount.isEmpty()) opt._roverName = _roverMount.data();
72	if (!_baseMount.isEmpty()) opt._baseName = _baseMount.data();
73	if (!antNameRover.isEmpty()) opt._antNameRover = antNameRover.data();
74	if (!antNameBase.isEmpty()) opt._antNameBase = antNameBase.data();
75	if (!antexFileName.isEmpty()) opt._antexFileName = antexFileName.data();
76
77	opt._xyzAprRover[0] = settings.value("rtroverRoverRefCrdX").toDouble();
78	opt._xyzAprRover[1] = settings.value("rtroverRoverRefCrdY").toDouble();
79	opt._xyzAprRover[2] = settings.value("rtroverRoverRefCrdZ").toDouble();
80	opt._xyzAprBase[0] = settings.value("rtroverBaseRefCrdX").toDouble();
81	opt._xyzAprBase[1] = settings.value("rtroverBaseRefCrdY").toDouble();
82	opt._xyzAprBase[2] = settings.value("rtroverBaseRefCrdZ").toDouble();
83	opt._neuEccRover[0] = settings.value("rtroverRoverDN").toDouble();
84	opt._neuEccRover[1] = settings.value("rtroverRoverDE").toDouble();
85	opt._neuEccRover[2] = settings.value("rtroverRoverDU").toDouble();
86	opt._neuEccBase[0] = settings.value("rtroverBaseDN").toDouble();
87	opt._neuEccBase[1] = settings.value("rtroverBaseDE").toDouble();
88	opt._neuEccBase[2] = settings.value("rtroverBaseDU").toDouble();
89	opt._logLevel = 2;
90
91	rtrover_setOptions(&opt);
92
93	// Connect to BNC Signals
94	// ----------------------
95	connect(BNC_CORE, SIGNAL(newCorrections(QList<QString>)),
96	this, SLOT(slotNewCorrections(QList<QString>)));
97
98	connect(BNC_CORE, SIGNAL(newEphGPS(gpsephemeris)),
99	this, SLOT(slotNewEphGPS(gpsephemeris)));
100
101	connect(BNC_CORE, SIGNAL(newEphGlonass(glonassephemeris)),
102	this, SLOT(slotNewEphGlonass(glonassephemeris)));
103
104	connect(BNC_CORE, SIGNAL(newEphGalileo(galileoephemeris)),
105	this, SLOT(slotNewEphGalileo(galileoephemeris)));
106
107	// Start processing loop
108	// ---------------------
109	QThread::exec();
110	}
111
112	//
113	////////////////////////////////////////////////////////////////////////////
114	void t_bncRtrover::slotNewEphGPS(gpsephemeris gpseph) {
115	QMutexLocker locker(&_mutex);
116
117	bncTime toc(gpseph.GPSweek, gpseph.TOC);
118	bncTime toe(gpseph.GPSweek, gpseph.TOE);
119
120	rtrover_ephGPS eph;
121	eph._satellite._system = 'G';
122	eph._satellite._number = gpseph.satellite;
123	eph._TOC._mjd = toc.mjd();
124	eph._TOC._sec = toc.daysec();
125	eph._TOE._mjd = toe.mjd();
126	eph._TOE._sec = toe.daysec();
127	eph._IODE = gpseph.IODE;
128	eph._IODC = gpseph.IODC;
129	eph._clock_bias = gpseph.clock_bias;
130	eph._clock_drift = gpseph.clock_drift;
131	eph._clock_driftrate = gpseph.clock_driftrate;
132	eph._Crs = gpseph.Crs;
133	eph._Delta_n = gpseph.Delta_n;
134	eph._M0 = gpseph.M0;
135	eph._Cuc = gpseph.Cuc;
136	eph._e = gpseph.e;
137	eph._Cus = gpseph.Cus;
138	eph._sqrt_A = gpseph.sqrt_A;
139	eph._Cic = gpseph.Cic;
140	eph._OMEGA0 = gpseph.OMEGA0;
141	eph._Cis = gpseph.Cis;
142	eph._i0 = gpseph.i0;
143	eph._Crc = gpseph.Crc;
144	eph._omega = gpseph.omega;
145	eph._OMEGADOT = gpseph.OMEGADOT;
146	eph._IDOT = gpseph.IDOT;
147	eph._TGD = gpseph.TGD;
148	eph._health = gpseph.SVhealth;
149
150	rtrover_putGPSEphemeris(&eph);
151	}
152
153	//
154	////////////////////////////////////////////////////////////////////////////
155	void t_bncRtrover::slotNewEphGlonass(glonassephemeris gloeph) {
156	QMutexLocker locker(&_mutex);
157
158	int wwUTC = gloeph.GPSWeek;
159	int towUTC = gloeph.GPSTOW;
160	updatetime(&wwUTC, &towUTC, gloeph.tb*1000, 1); // Moscow -> UTC
161	bncTime tUTC(wwUTC,towUTC);
162
163	int wwGPS = gloeph.GPSWeek;
164	int towGPS = gloeph.GPSTOW;
165	updatetime(&wwGPS, &towGPS, gloeph.tb*1000, 0); // Moscow -> GPS
166	bncTime tGPS(wwGPS,towGPS);
167
168	rtrover_ephGlo eph;
169	eph._satellite._system = 'R';
170	eph._satellite._number = gloeph.almanac_number;
171	eph._timeUTC._mjd = tUTC.mjd();
172	eph._timeUTC._sec = tUTC.daysec();
173	eph._gps_utc = int(tGPS-tUTC);
174	eph._E = gloeph.E;
175	eph._tau = gloeph.tau;
176	eph._gamma = gloeph.gamma;
177	eph._x_pos = gloeph.x_pos;
178	eph._x_velocity = gloeph.x_velocity;
179	eph._x_acceleration = gloeph.x_acceleration;
180	eph._y_pos = gloeph.y_pos;
181	eph._y_velocity = gloeph.y_velocity;
182	eph._y_acceleration = gloeph.y_acceleration;
183	eph._z_pos = gloeph.z_pos;
184	eph._z_velocity = gloeph.z_velocity;
185	eph._z_acceleration = gloeph.z_acceleration;
186	eph._health = 0; // TODO ?
187	eph._frequency_number = gloeph.frequency_number;
188
189	rtrover_putGloEphemeris(&eph);
190	}
191
192	//
193	////////////////////////////////////////////////////////////////////////////
194	void t_bncRtrover::slotNewEphGalileo(galileoephemeris /* galeph */) {
195	// not yet implemented
196	}
197
198	//
199	////////////////////////////////////////////////////////////////////////////
200	void t_bncRtrover::slotNewCorrections(QList<QString> corrList) {
201	QMutexLocker locker(&_mutex);
202
203	if (corrList.size() == 0) {
204	return;
205	}
206
207	int numOrbCorr = 0;
208	int numClkCorr = 0;
209	int numBiases = 0;
210
211	rtrover_orbCorr orbCorr[corrList.size()];
212	rtrover_clkCorr clkCorr[corrList.size()];
213	rtrover_satBiases biases[corrList.size()];
214
215	QListIterator<QString> it(corrList);
216	while (it.hasNext()) {
217	QString line = it.next();
218
219	// Check the Mountpoint
220	// --------------------
221	QStringList hlp = line.split(" ");
222	if (hlp.size() > 0) {
223	QString mountpoint = hlp[hlp.size()-1];
224	if (mountpoint != _corrMount) {
225	continue;
226	}
227	}
228
229	// Orbit and clock corrections
230	// ---------------------------
231	t_corr corr;
232	if (corr.readLine(line) == success) {
233
234	if (corr.messageType == COTYPE_GPSCOMBINED \|\|
235	corr.messageType == COTYPE_GLONASSCOMBINED \|\|
236	corr.messageType == COTYPE_GPSORBIT \|\|
237	corr.messageType == COTYPE_GLONASSORBIT ) {
238
239	_IODs[corr.prn] = corr.iod; // remember iod;
240
241	++numOrbCorr;
242	rtrover_orbCorr& orbC = orbCorr[numOrbCorr-1];
243	orbC._satellite._system = corr.prn.toAscii()[0];
244	orbC._satellite._number = corr.prn.mid(1).toInt();
245	orbC._iod = corr.iod;
246	orbC._time._mjd = corr.tRao.mjd();
247	orbC._time._sec = corr.tRao.daysec();
248	orbC._system = 'R';
249	for (int ii = 0; ii < 3; ii++) {
250	orbC._xr[ii] = corr.rao[ii];
251	orbC._dotXr[ii] = corr.dotRao[ii];
252	}
253	}
254
255	if (corr.messageType == COTYPE_GPSCOMBINED \|\|
256	corr.messageType == COTYPE_GLONASSCOMBINED \|\|
257	corr.messageType == COTYPE_GPSCLOCK \|\|
258	corr.messageType == COTYPE_GLONASSCLOCK ) {
259	++numClkCorr;
260	rtrover_clkCorr& clkC = clkCorr[numClkCorr-1];
261	clkC._satellite._system = corr.prn.toAscii()[0];
262	clkC._satellite._number = corr.prn.mid(1).toInt();
263	if (_IODs.contains(corr.prn)) {
264	clkC._iod = _IODs[corr.prn];
265	}
266	else {
267	clkC._iod = 0;
268	}
269	clkC._time._mjd = corr.tClk.mjd();
270	clkC._time._sec = corr.tClk.daysec();
271	clkC._dClk = corr.dClk;
272	clkC._dotDClk = corr.dotDClk;
273	clkC._dotDotDClk = corr.dotDotDClk;
274	}
275	}
276
277	// Code Biases
278	// -----------
279	t_bias bias;
280	if (bias.readLine(line) == success) {
281	++numBiases;
282	rtrover_satBiases& satBiases = biases[numBiases-1];
283	satBiases._satellite._system = bias._prn.toAscii()[0];
284	satBiases._satellite._number = bias._prn.mid(1).toInt();
285	satBiases._time._mjd = bias._time.mjd();
286	satBiases._time._sec = bias._time.daysec();
287	satBiases._numBiases = bias._value.size();
288	satBiases._biases = new rtrover_bias[satBiases._numBiases];
289	int iBias = -1;
290	QMapIterator<QByteArray, double> it(bias._value);
291	while (it.hasNext()) {
292	it.next();
293	++iBias;
294	rtrover_bias& singleBias = satBiases._biases[iBias];
295	singleBias._rnxType3ch[0] = 'C';
296	singleBias._rnxType3ch[1] = it.key()[0];
297	singleBias._rnxType3ch[2] = it.key()[1];
298	singleBias._rnxType3ch[3] = '\0';
299	singleBias._value = it.value();
300	}
301	}
302	}
303
304	// Pass Corrections and Biases to client library
305	// ---------------------------------------------
306	if (numOrbCorr > 0) {
307	rtrover_putOrbCorrections(numOrbCorr, orbCorr);
308	}
309	if (numClkCorr > 0) {
310	rtrover_putClkCorrections(numClkCorr, clkCorr);
311	}
312	if (numBiases > 0) {
313	rtrover_putBiases(numBiases, biases);
314	}
315
316	// Clean the memory
317	// ----------------
318	for (int ii = 0; ii < numBiases; ii++) {
319	delete [] biases[ii]._biases;
320	}
321	}
322
323	// Auxiliary function - copy observation data
324	////////////////////////////////////////////////////////////////////////////
325	void copyObs(const t_obs& obsBnc, rtrover_satObs& satObs) {
326
327	bncTime obsTime(obsBnc.GPSWeek, obsBnc.GPSWeeks);
328	satObs._satellite._system = obsBnc.satSys;
329	satObs._satellite._number = obsBnc.satNum;
330	satObs._time._mjd = obsTime.mjd();
331	satObs._time._sec = obsTime.daysec();
332
333	QMap<QByteArray, rtrover_obs> allObs;
334	for (int iEntry = 0; iEntry < GNSSENTRY_NUMBER; ++iEntry) {
335	if (obsBnc._measdata[iEntry] != 0.0) {
336	QByteArray rnxStr = obsBnc.rnxStr(iEntry).toAscii();
337	if (rnxStr.length() >= 2) {
338	if (rnxStr == "L1") {
339	rnxStr = "L1C";
340	}
341	else if (rnxStr == "L2") {
342	rnxStr = "L2P";
343	}
344	QByteArray codeType = rnxStr.mid(1);
345
346	bool existed = allObs.contains(codeType);
347	rtrover_obs& currObs = allObs[codeType];
348	if (!existed) {
349	rtrover_initObs(&currObs);
350	currObs._rnxType2ch[0] = codeType[0];
351	currObs._rnxType2ch[1] = codeType[1];
352	currObs._rnxType2ch[2] = '\0';
353	}
354
355	if (rnxStr[0] == 'C') {
356	currObs._code = obsBnc._measdata[iEntry];
357	currObs._codeValid = true;
358	}
359	else if (rnxStr[0] == 'L') {
360	currObs._phase = obsBnc._measdata[iEntry];
361	currObs._phaseValid = true;
362	if (codeType[0] == '1') {
363	currObs._slip = obsBnc.slipL1;
364	currObs._slipCounter = obsBnc.slip_cnt_L1;
365	}
366	else if (codeType[0] == '2') {
367	currObs._slip = obsBnc.slipL2;
368	currObs._slipCounter = obsBnc.slip_cnt_L2;
369	}
370	else if (codeType[0] == '5') {
371	currObs._slip = obsBnc.slipL5;
372	currObs._slipCounter = obsBnc.slip_cnt_L5;
373	}
374	}
375	else if (rnxStr[0] == 'D') {
376	currObs._doppler = obsBnc._measdata[iEntry];
377	currObs._dopplerValid = true;
378	}
379	else if (rnxStr[0] == 'S') {
380	currObs._snr = obsBnc._measdata[iEntry];
381	currObs._snrValid = true;
382	}
383	}
384	}
385	}
386	satObs._numObs = allObs.size();
387	satObs._obs = new rtrover_obs[satObs._numObs];
388	int iObs = -1;
389	QMapIterator<QByteArray, rtrover_obs> it(allObs);
390	while (it.hasNext()) {
391	it.next();
392	++iObs;
393	satObs._obs[iObs] = it.value();
394	}
395	}
396
397	//
398	////////////////////////////////////////////////////////////////////////////
399	void t_bncRtrover::slotNewObs(QByteArray staID, QList<t_obs> obsList) {
400	QMutexLocker locker(&_mutex);
401
402	if (staID != _roverMount && staID != _baseMount) {
403	return;
404	}
405
406	// Store Observations into epochs
407	// ------------------------------
408	QListIterator<t_obs> it(obsList);
409	while (it.hasNext()) {
410
411	const t_obs& obsIn = it.next();
412
413	bncTime obsTime(obsIn.GPSWeek, obsIn.GPSWeeks);
414
415	// Find corresponding epoch or create a new one
416	// --------------------------------------------
417	t_epoData* epoData = 0;
418	for (unsigned ii = 0; ii < _epochs.size(); ii++) {
419	if (_epochs[ii]->_time == obsTime) {
420	epoData = _epochs[ii];
421	break;
422	}
423	}
424	if (epoData == 0) {
425	if (_epochs.size() == 0 \|\| _epochs.back()->_time < obsTime) {
426	epoData = new t_epoData();
427	epoData->_time = obsTime;
428	_epochs.push_back(epoData);
429	}
430	else {
431	continue;
432	}
433	}
434
435	// Store observation into epoch class
436	// ----------------------------------
437	if (staID == _roverMount) {
438	epoData->_obsRover.push_back(obsIn);
439	}
440	else if (staID == _baseMount) {
441	epoData->_obsBase.push_back(obsIn);
442	}
443	}
444
445	// Process Epochs
446	// --------------
447	while (_epochs.size() > 1) {
448	const double WAITTIME = 5.0;
449	double dt = _epochs.back()->_time - _epochs.front()->_time;
450	if (dt > WAITTIME) {
451	processFrontEpoch();
452	}
453	else {
454	break;
455	}
456	}
457	}
458
459	//
460	////////////////////////////////////////////////////////////////////////////
461	void t_bncRtrover::processFrontEpoch() {
462
463	// Copy observations into rtrover_satObs structures
464	// ------------------------------------------------
465	t_epoData* frontEpoData = _epochs.front();
466	_epochs.erase(_epochs.begin());
467
468	int numSatRover = frontEpoData->_obsRover.size();
469	rtrover_satObs satObsRover[numSatRover];
470	for (int ii = 0; ii < numSatRover; ii++) {
471	const t_obs& obsBnc = frontEpoData->_obsRover[ii];
472	rtrover_satObs& satObs = satObsRover[ii];
473	copyObs(obsBnc, satObs);
474	}
475
476	int numSatBase = frontEpoData->_obsBase.size();
477	rtrover_satObs satObsBase[numSatBase];
478	for (int ii = 0; ii < numSatBase; ii++) {
479	const t_obs& obsBnc = frontEpoData->_obsBase[ii];
480	rtrover_satObs& satObs = satObsBase[ii];
481	copyObs(obsBnc, satObs);
482	}
483
484	delete frontEpoData;
485
486	// Process single epoch
487	// --------------------
488	rtrover_output output;
489	rtrover_processEpoch(numSatRover, satObsRover, numSatBase, satObsBase, &output);
490
491	// Write output
492	// ---------------------
493	_outputFile.write(output._log);
494	_outputFile.flush();
495
496	// Free memory
497	// -----------
498	rtrover_freeOutput(&output);
499	for (int ii = 0; ii < numSatRover; ii++) {
500	rtrover_satObs& satObs = satObsRover[ii];
501	delete [] satObs._obs;
502	}
503	for (int ii = 0; ii < numSatBase; ii++) {
504	rtrover_satObs& satObs = satObsBase[ii];
505	delete [] satObs._obs;
506	}
507	}

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